Virial Coefficients of Pure Gases and Mixtures

Landolt-Börnstein Numerical Data and Functional Relationships in Science and Technology New Series / Editor in Chief: W. Martienssen

Group IV: Physical Chemistry Volume 21

Virial Coefficients of Pure Gases and Mixtures Subvolume B Virial Coefficients of Mixtures J.H. Dymond, K.N. Marsh, R.C. Wilhoit

Edited by M. Frenkel and K.N. Marsh

Copyright@2002 by the Secretary of Commerce on Behalf of the United States Government. All rights reserved. The National Standard Reference Data Series provides quantitative data on the physical and chemical properties of materials, compiled from the world’s literature and critically evaluated. Developed under a worldwide program coordinated by the National Institute of Standards and Technology (NIST) under the authority of the National Standard Data Act (Public Law 15 USC 290). The data and other information in this set of tables have been carefully extracted from the original literature and evaluated by experts. Furthermore, they have been checked for correctness by the evaluators and editorial staff before printing. Neither the publishers, nor the editors, not its evaluators warrant or present, expressly or implied, the correctness or accuracy of the content of information in this series, not its fitness for any use or for any purpose, nor can they accept any liability or responsibility whatever for the consequences of its use or misuse by anyone. In any individual case of application, the respective user must check the correctness by consulting other relevant sources of information.

ISSN 1615-2018 (Physical Chemistry) ISBN 3-540-44340-1 Springer-Verlag Berlin Heidelberg New York

Library of Congress Cataloging in Publication Data Zahlenwerte und Funktionen aus Naturwissenschaften und Technik, Neue Serie Editor in Chief: W. Martienssen Vol. IV/21B: Editors: M. Frenkel, K.N. Marsh At head of title: Landolt-Börnstein. Added t.p.: Numerical data and functional relationships in science and technology. Tables chiefly in English. Intended to supersede the Physikalisch-chemische Tabellen by H. Landolt and R. Börnstein of which the 6th ed. began publication in 1950 under title: Zahlenwerte und Funktionen aus Physik, Chemie, Astronomie, Geophysik und Technik. Vols. published after v. 1 of group I have imprint: Berlin, New York, Springer-Verlag Includes bibliographies. 1. Physics--Tables. 2. Chemistry--Tables. 3. Engineering--Tables. I. Börnstein, R. (Richard), 1852-1913. II. Landolt, H. (Hans), 1831-1910. III. Physikalisch-chemische Tabellen. IV. Title: Numerical data and functional relationships in science and technology. QC61.23 02'.12 62-53136 This work is subject to copyright. All rights are reserved, whether the whole or part of the material is concerned, specifically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfilm or in other ways, and storage in data banks. Duplication of this publication or parts thereof is permitted only under the provisions of the German Copyright Law of September 9, 1965, in its current version, and permission for use must always be obtained from SpringerVerlag. Violations are liable for prosecution act under German Copyright Law. Springer-Verlag Berlin Heidelberg New York a member of BertelsmannSpringer Science+Business Media GmbH © Springer-Verlag Berlin Heidelberg 2003 Printed in Germany The use of general descriptive names, registered names, trademarks, etc. in this publication does not imply, even in the absence of a specific statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. Product Liability: The data and other information in this handbook have been carefully extracted and evaluated by experts from the original literature. Furthermore, they have been checked for correctness by authors and the editorial staff before printing. Nevertheless, the publisher can give no guarantee for the correctness of the data and information provided. In any individual case of application, the respective user must check the correctness by consulting other relevant sources of information. Cover layout: Erich Kirchner, Heidelberg Typesetting: Authors and Redaktion Landolt-Börnstein, Darmstadt Printing and Binding: WB Druck, Rieden/Allgäu SPIN: 10754889

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Editors M. Frenkel Thermodynamics Research Center (TRC) Physical and Chemical Properties Division National Institute of Standards and Technology Boulder, Colorado, 80305-3328, USA

K.N. Marsh former address: Thermodynamics Research Center TheTexas A&M University System College Station, Texas 77843-3111, USA present address: Department of Chemical and Process Engineering University of Canterbury Christchurch, New Zealand

Authors J.H. Dymond Department of Chemistry University of Glasgow Glasgow United Kingdom

K.N. Marsh Department of Chemical and Process Engineering University of Canterbury Christchurch, New Zealand

R.C. Wilhoit former address: Thermodynamics Research Center TheTexas A&M University System College Station, Texas 77843-3111, USA

Landolt-Börnstein Editorial Office Gagernstr. 8, D-64283 Darmstadt, Germany fax: +49 (6151) 171760 e-mail: [email protected] Internet http://www.landolt-boernstein.com Helpdesk e-mail: [email protected]

Preface

This critical compilation of virial coefficients of pure gases is a sequel to The Virial Coefficients of Pure Gases and Mixtures, by J.H. Dymond and E.B. Smith (Oxford University Press, 1979) and a companion of Virial Coefficients of Gases and Gas Mixtures, Subvolume A, Pure Compounds. This new and enlarged edition was prepared from the virial coefficient database at the Thermodynamics Research Center, formerly at Texas A&M University, College Station, Texas, and now located at the National Institute of Standards and Technology, Boulder, Colorado. This compilation will be of interest to the theoretical chemist as it includes the many sets of accurate gas imperfection data for mixtures that have been determined over the past twenty years by improved methods of gas density determination, by isochoric Burnett coupling methods and from speed of sound measurements, as well as by the more traditional techniques. The needs of the industrial chemist are met by these more reliable data and also the increased number of compounds for which data are now available. For each mixture, the second virial coefficient data from different published sources are tabulated in increasing order of temperature, and an estimate of the uncertainty is given. Conversion to a uniform set of units is undertaken where necessary. In the majority of cases, where the data cover a sufficiently wide range of temperature, a weighted data fit has been made for the interaction second virial coefficients, and coefficients of the given equation are recorded. Values of the interaction second virial coefficient given by the equation at selected temperatures are quoted. This volume includes material published up to the end of 1998. While every effort has been made to see that the tables are free from error, it is unlikely that there will be no omissions or mistakes. We would appreciate it if corrections could be brought to our attention.

Christchurch, New Zealand and Boulder, Colorado, USA, November 2002

The Editors

Acknowledgments The authors wish to express their sincere appreciation to the University of Canterbury for the award of a Visiting Erskine Fellowship to JHD to enable a leave at the Department of Chemical and Process Engineering and an award of an Erskine Grant to KNM. Our special thanks are due to John Boxall, Derek Caudwell, Barbara Clark, Christine Nichol and Ruba Vigneswaran, Emma Tran and S.K. Wong, for their assistance in formatting the text, preparing the graphs, checking the data, and composing the camera-ready copy of the manuscript. The facilities provided by the Department of Chemical and Process Engineering, University of Canterbury, are gratefully acknowledged. Christchurch, New Zealand and Boulder, Colorado, USA, November 2002

J.H. Dymond K.N. Marsh R.C. Wilhoit

Contents

1 1 2 3 3 4 4 6 8 8 9 9 10 10 11

1 1.1 1.2 1.2.1 1.2.2 1.2.3 1.3 1.4 1.5 1.5.1 1.5.2 1.5.3 1.6 1.7

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Mixture Virial Coefficients . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Experimental Methods. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Gas Mixing Measurements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Solubility Measurements in Compressed Gases . . . . . . . . . . . . . . . . . . . . . . . . Gas-Liquid Chromatography Measurements . . . . . . . . . . . . . . . . . . . . . . . . . . Theoretical Calculation of Interaction Virial Coefficients . . . . . . . . . . . . . . . . . . . Correlation, Estimation and Prediction of Virial Coefficients . . . . . . . . . . . . . . . . . Data Evaluation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Data Storage and Processing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Selection of B12 Values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Fitting of B12 Values to Smoothing Functions . . . . . . . . . . . . . . . . . . . . . . . . . The Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Glossary of Symbols. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . References for Chapter 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2

Virial Coefficients of Mixtures Containing an Inorganic Compound . . . . . . . . . . . 13

3

Virial Coefficients of Mixtures of Two Organic Compounds . . . . . . . . . . . . . . . 253

References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 357 Chemical Name Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 367 Chemical Abstract Service Registry Number (CASRN) Index . . . . . . . . . . . . . . . . . . 381 Alternate Name Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 391

1.1 Mixture Virial Coefficients

1

1

Introduction

Accurate knowledge of the p-V-T behaviour of gas mixtures is essential, for example, (i) to calculate the pressure generated by mixtures of known composition at a fixed volume at given temperatures, (ii) to enable equitable custody transfer, where there are large volume flows of natural gas, and (iii) to obtain thermodynamically-consistent representation of liquid-vapour equilibria involving many components, particularly at super-atmospheric pressures. In addition, such data can provide important information on the potential energy functions, which represent the interactions between different kinds of molecules.

1.1

Mixture Virial Coefficients

The p-V-T behaviour of gas mixtures is conveniently represented by the theoretically-based virial equation of state, in which Z, the compressibility factor or compression factor, is represented by an infinite series expansion in either the density (reciprocal molar volume) or pressure, p: Z=

pVm = 1 + Bmix Vm + Cmix Vm2 + Dmix Vm3 + ........... RT

(1.1)

Z=

pVm * * * p + Cmix p 2 + Dmix p 3 + ........... = 1 + Bmix RT

(1.2)

where Vm is the molar volume, T the absolute temperature, and R the gas constant. Bmix, Cmix, Dmix….. in the density (or volume) series are termed the second, third, fourth…..mixture virial coefficients. They are functions of temperature. The importance of these virial coefficients lies in the fact that they represent the departure from gas ideality due to molecular interactions; the second virial coefficient arises from molecular pair interactions, the third virial coefficient from groups of three molecules, and so on. The coefficients of these two equations are simply related as follows: * Bmix = Bmix RT

(1.3)

* 2 * Cmix = ( Bmix + Cmix )( RT ) 2

(1.4)

* 3 * * * Dmix = ( Bmix + 3Bmix Cmix + Dmix )( RT )3 .

(1.5)

For a ν-component mixture, these virial coefficients can be written as: ν

ν

Bmix = ∑∑ xi x j Bij

(1.6)

i =1 j =1

ν

ν

ν

Cmix = ∑∑∑ xi x j xk Cijk

(1.7)

i =1 j =1 k =1

etc., where xi is the mole fraction of component i. Specifically, for a two-component mixture,

etc. Landolt-Börnstein New Series IV/21B

Bmix = x12 B11 + 2 x1 x2 B12 + x22 B22

(1.8)

Cmix = x13C111 + 3x12 x2 C112 + 3x1 x22 C122 + x23C222

(1.9)

2

1.2 Experimental Methods

Here, B11 and B22 are the second virial coefficients of the pure components. B12 is termed the second interaction virial coefficient, the cross virial coefficient, the cross-term virial coefficient, or the mixed virial coefficient. It can be related to the potential energy function, U(R12), which describes the interaction of molecules of species 1 with those of species 2 in terms of the molecular separation R12. For example, for the interaction of molecules with spherically-symmetric potential energy functions, ∞

(

)

B12 = −2π N A ∫ e −U ( R12 ) kT − 1 R12 dR12

(1.10)

0

where NA is the Avogadro number. Similarly, C111 and C222 are the third virial coefficients for the pure components. C112 represents the departure from gas ideality due to interactions of two molecules of 1 with one molecule of 2; C122 arises from interactions of two molecules of 2 with one molecule of 1. As an illustration of the variation with temperature of the pure-component second and third virial coefficients, and the cross virial coefficients, results for the system methane + propane are shown in Figures 1 and 2.

C

B B C

B Cijk

B ij

C

T

Fig. 1. Second virial coefficients for methane (1) + propane (2)

1.2

C

T

Fig. 2. Third virial coefficients for methane (1) + propane (2)

Experimental Methods

Many of the methods for the measurement of virial coefficients of pure compounds, which were described in the first volume 2002-dym/mar, are applicable also to mixtures. These can be classified as (a) p-V-T measurements, as made by groups at Keio University, Yokahama, Japan, 96-sat/kiy, at the Physikalisch-Technische Bundesanstalt, Braunschweig, Germany 95-bla/wei, at Texas A&M University, U.S.A. 88-fon/mar, at Wilhelm-Pieck University, Rostock, Germany 88-pie/ope and at the Institute for Chemical Technology, Lyngby, Denmark 85-mol/ang, (b) speed of sound measurements, which have been carried out by the groups of Ewing (University College, London) and Trusler (Imperial College, London) 92-ewi/tru, 96-tru/wak, (c) Joule-Thomson measurements, made by the group of Wormald (University of Bristol, UK) 99-wor/joh and references therein, and (d) refractive index and relative permittivity measurements, which have been made by the groups at Brown University, Rhode Island, U.S.A. 76-cop/col, and at Ruhrgas AG, Essen, Germany 87-jae. These methods give values for mixture virial coefficients, from which the interaction virial coefficients are calculated from equations (1.8) and (1.9), with known values of the coefficients for the pure components. Random error propagation has been Landolt-Börnstein New Series IV/21B

3

1.2 Experimental Methods

used by Eubank and Hall 90-eub/hal to obtain the optimum composition for determination of the cross virial coefficients. Where measurements are made at a single composition, the equimolar composition is optimum for the determination of B12, when all errors are equal. From measurements at higher pressures, minimisation of the combined errors in B12, C112 and C122 at two compositions leads to the best results when the mole fractions are close to 0.33 and 0.66, when all errors are equal. It should be noted, however, that the uncertainty in the value of B12 derived from equation (1.8) will be greater than that in the purecomponent values of B. For an equimolar mixture, with B11, B22 and Bmix having roughly equal values and equal uncertainties, the uncertainty in B12 will be as much as double that for the other B values. There is great advantage, therefore, in using methods that provide a more direct route to these interaction coefficients, such as: (i) gas mixing, (ii) solubility in compressed gases, and (iii) gas-liquid chromatography.

1.2.1

Gas Mixing Measurements

When two real gases are mixed at constant temperature, measurements can be made either of the pressure change that results at constant total volume, or of the volume change that occurs at constant pressure. In practice, it is the former method which has been used in recent times, by groups at the University of California, Los Angeles, U.S.A. 80-pas/han, at the University of Adelaide, Australia 93-big/dun, at the University of Canterbury, Christchurch, New Zealand 83-mce/has, and at Osaka University, Japan 82ohg/nak. The pressure change that develops on mixing two gases, which are initially in bulbs of identical volume at constant temperature, is related to the excess second virial coefficient, BE, which is defined as

B E = B12 − 0.5( B11 + B22 ) .

(1.11)

The expression, given by Knobler 67-kno, is

{

}

B E = 2 RT ∆p / p 2 − ( B11 − B22 ) / 2 − B E ( B11 + B22 ) + 3 ( F1 + F2 ) / 4 p / RT + ......... 2

(1.12)

where p is the filling pressure, ∆p is the pressure change on mixing, and Fi is the excess third virial coefficien,t defined as Fi = Ciij − (2Ciii + C jjj ) 3 .

(1.13)

To a good approximation, for systems such as binary mixtures of rare gases, BE can be calculated from just the first term in this expression 69-bre/vau. Corrections for the other terms can be included. In principle, the experimental technique is straightforward, but careful attention has to be paid to the mixing of the gases, which can be achieved by use of a Toepler pump 59-kno/bee. This, however, introduces problems, which can be overcome by having cold fingers sealed into the vessels, to which liquid nitrogen can be added 67-kno. Alternatively, a Loschmidt mixing cell 82-bel/dun can be used, in which the heavier gas is in the upper part of the cell. Methods for the measurement of the pressure difference between the gas mixture and a gas in a third vessel at the original pressure, include use of manometric fluids, a Texas Instruments quartz spiral gauge and a pressure transducer.

1.2.2

Solubility Measurements in Compressed Gases

The solubility of a liquid in a gas at intermediate pressures, for example 1 to 10 MPa, differs from that given by the Raoult's law expression, mainly as a result of vapour non-ideality. In terms of its fugacity coefficient, ϕ1, the mole fraction of the liquid in a gas, y1, is given by the expression 59-pra/ben  v1 ( p − p10 )  (1 − x2 ) p10ϕ10 y1 = exp  L (1.14)  ϕ1 p RT   where, in the case of low solubility, v1L can be taken as the molar volume of the pure liquid, x2 is the mole Landolt-Börnstein New Series IV/21B

4

1.3 Theoretical Calculation of Interaction Virial Coefficients

fraction solubility of the gas in the liquid, p and T are the experimental pressure and temperature, p10 is the saturated vapour pressure at temperature T, and ϕ10 represents the fugacity coefficient of the pure liquid. For densities that are sufficiently low that contributions from third virial coefficients can be neglected, the fugacity coefficient ϕ1 can be expressed in terms of the virial equation of state as ln ϕ1 = (2 / Vm )( y2 B12 + y1 B11 ) − ln Z

(1.15)

where Vm and Z are the molar volume and compression factor of the gaseous mixture. Equations (1.14) and (1.15) can be combined and solved iteratively to determine values for B12 from measurements of the solubility y1. Since, in general for the systems studied, y1<
1.2.3

Gas-Liquid Chromatography Measurements

Values for B12 for mixtures of solute vapour and carrier gas are required in order to determine zeropressure retention volumes from values measured in a gas-liquid chromatographic column at finite pressures. However, by modelling the elution process it is possible to devise extrapolation procedures, which lead to the determination of B12 values. This was investigated by groups at the University of Bristol, UK 65-eve, 69-cru/gai and their later analysis led to the following expression for the net retention volume, VN, which is the outlet retention volume adjusted to the mean column pressure:

ln VN = ln VNo + β po J 34

(1.16)

where

(

β = 2 B12 − v1∞

) ( RT )

 ( p p )4 − 1  po J 34 = (3 po 4 ) i o 3   ( pi po ) − 1 

(1.17)

(1.18)

and pi, po are the inlet and outlet pressures, respectively, v1∞ is the partial molar volume of the solute at infinite dilution and VNo is the value of VN corresponding to pi = po. A third term in the expression, not given above, involves the third virial coefficient, C122, but neglect of this term is likely to introduce an error of only about ± 2 cm3⋅mol-1 in the calculated B12.

1.3

Theoretical Calculation of Interaction Virial Coefficients

The most satisfactory methods of data correlation are based on sound theory. In the case of the second virial cross-coefficient, this depends on accurate knowledge of the intermolecular pair potential energy function, U12 (R, ω1, ω2) which, in general, depends on the orientations, ω1 and ω2, as well as the separation, R, of the molecules:

Landolt-Börnstein New Series IV/21B

1.3 Theoretical Calculation of Interaction Virial Coefficients

5

NA (1.19) f12 dτ 1dτ 2 2V Ω 2 ∫ ∫ where f12 = exp{-U12 (R, ω1, ω2)/(kT)} -1, and U12 (R, ω1, ω2) is the pair-interaction potential-energy function for the unlike pair of molecules. For a linear molecule, Ω = 4π and dτi = dri sin θi dθi dϕi, where θi and ϕi are the angles necessary to specify the orientation. For a three-dimensional rigid rotator, Ω = 8π2 and dτi = dri sin θi dθi dϕi dψi, where θi, ϕ i, and ψi are the Euler angles. It is only for the simplest of substances that ab initio calculations of the pair-interaction potentialenergy have been possible with sufficient accuracy. Systematic studies on the interactions of pairs of unlike rare-gas atoms by the group of Aziz (University of Waterloo, Ontario, Canada), for example, Ne + Ar 88-bar/azi, used a combination of an ab initio calculation of the self-consistent Hartree-Fock repulsion between the closed shells, a semi-empirical estimate of the correlation energy, and values for the dispersion coefficients, to give a realistic potential form. Values for the five adjustable parameters are then derived from a fit of high-energy total cross sections (which determines the repulsive wall of the potential), second virial coefficient data, transport data (viscosity, thermal conductivity, diffusion and thermal diffusion coefficients), and differential cross sections. When the potential functions are determined without using experimental interaction second virial coefficients, as in the case of Ne + Kr and Ne + Xe 89-bar/sla, then the calculated values of B12 provide a test of the quoted uncertainty of the experimental data for those mixtures. In the case of an atom interacting with a diatomic molecule, it is necessary to know the potential surface in order to calculate macroscopic properties. Three types of potential that have proved successful are the BTT (Bowers-Tang-Toennies) surface 88-bow/tan, the MMSV (Morse-Morse-spline-van der Waals) potential surface 93-ben/cas and an exchange-Coulomb model intermolecular potential-energy surface 95-dha/mcc. The BTT surface is obtained 88-bow/tan by expressing the anisotropy of the intermolecular potential by a Legendre expansion, of which the first three terms were taken and the radial coefficients were related to potentials at geometries with θ equal 0o, 45o and 90o. These potentials were generated by adding a simple Born-Mayer repulsive term, with parameters derived from SCF (Self-Consistent Field) calculations, to a damped asymptotic ab initio dispersion series, with available dispersion coefficients. The resulting potentials, which contain no adjustable parameters, were used to calculate B12 values for He + N2, Ne + N2 and Ar + N2, and close agreement was found with experiment. The MMSV 93-ben/cas is an empirical potential for which the parameters are derived from a multiproperty fit using molecular-beam total differential and integral scattering data, B12 data, transport properties and transport-property field effects, and relaxation phenomena. B12 (T ) = −

Table 1. Comparison of the calculated and measured second virial cross-coefficients for Ar + N2. T/K B12/cm3⋅mol-1 a Expt. XC0 XC3 BTT MMSV 90.0 -181.73 -211.21 -210.62 -200.24 -208.4 ± 3 100.0 -149.55 -173.59 -172.99 -164.60 -171.3 ± 3 125.0 -98.23 -114.50 -113.98 -108.51 -113.0 ± 3 150.0 -68.18 -80.43 -80.00 -76.10 -79.3 ± 2 200.0 -34.76 -42.97 -42.68 -40.45 -42.3 ± 2 250.0 -16.78 -23.05 -22.80 -21.44 -22.6 ± 1 300.0 -5.67 -10.77 -10.57 -9.75 -10.4 ± 0.5 400.0 7.15 3.36 3.52 3.69 3.6 ± 0.2 a

92-ewi/tru

The exchange-Coulomb (XC0) potential energy model 95-dha/mcc was initially used to construct pair-potential energy functions for atomic species (see, for example, 78-ng /mea; 92-azi/sla), and was extended to the interactions of such atom + diatom systems as He + CO 94-ler/bis, 96-dha/mea , Kr + N2 95-dha/mea and Ar + N2 95-dha/mcc. The initial XC0 surface was improved by considering some of the Landolt-Börnstein New Series IV/21B

6

1.4 Correlation, Estimation and Prediction of Virial Coefficients

coefficients as adjustable parameters, which were determined from experimental data, including interaction second virial coefficients and three representative lines of the microwave spectrum of the 14N2Ar van der Waals complex. A comparison of the fit which was obtained to the experimental second virial cross-coefficient data for this system with the optimised surface (XC3), and that given by the XC0, BTT and MMSV potentials is shown in Table 1, which is taken from 95-dha/mcc. As illustrated here with the XC3 surface, second virial cross-coefficient data play an important role together with high-resolution spectra (microwave, far-infrared and mid-infrared) of van der Waals complexes in the determination of atom + diatom potentials, and also atom + linear polyatomic potentials (see, for example, 96-hut/ern).

1.4

Correlation, Estimation and Prediction of Virial Coefficients

For correlation of the interaction second virial coefficients of mixtures of non-polar molecules, the same form of equation as that proposed by Tsonopoulos 74-tso for non-polar compounds can be used, whereby the reduced second virial coefficient is expressed in terms of Tr, the temperature reduced by the critical temperature, and a third parameter, the acentric factor ω, which had been introduced to extend the application to non-spherical non-polar molecules, to give Bij pc,ij RTc,ij = 0.1445 − 0.330 Tr − 0.1385 Tr2 − 0.0121 Tr3 − 0.000607 Tr8

{

}

+ω ij 0.0637 + 0.331/ Tr2 − 0.423 Tr3 − 0.008 Tr8 .

(1.20)

Here, the characteristic parameters pc,ij, Tc,ij and ωij are related to the pure component parameters by the following mixing rules: Tc,ij = (1 − kij )(Tc, i Tc, j )

1/ 2

pc,ij =

(1.21)

4Tc,ij ( pc,iVc,i Tc,i + pc, jVc, j Tc, j )

(V

1/ 3 c,i

+ Vc,1/j3

(1.22)

)

3

ωij = 0.5 (ωi + ω j ) .

(1.23)

The most sensitive mixing rule is the one for Tc,ij in which kij is a characteristic constant for each binary. The geometric-mean rule applies only when the components are very similar in size and shape. Generally, in the absence of specific chemical interactions, Tc,ij is less than the geometric mean and kij is positive. Tabulations of kij have been given by Chueh and Prausnitz 67-chu/pra and Hiza and Duncan 70hiz/dun, and an extension to the data base was presented by Tsonopoulos 79-tso. He showed that the most satisfactory correlation for kij with critical temperatures as correlating parameters was the geometricarithmetic-mean correlation of Fender and Halsey 62-fen/hal: kij = 1 − 2 (Tc,iTc, j )

12

(T

c,i

+ Tc, j ) .

(1.24)

For alkane + alkane binaries, however, the relationship proposed by Chueh and Prausnitz 67-chu/pra with critical volumes as correlating parameters is more satisfactory 79-tso, 89-tso/dym: kij = 1 −  2 (Vc,iVc, j ) 

16

Landolt-Börnstein New Series IV/21B

(V

1/ 3 c,i

)

+ Vc,1 j3  

3

.

(1.25)

1.4 Correlation, Estimation and Prediction of Virial Coefficients

7

For different binary mixtures where one component is a hydrocarbon, kij increases in a similar manner with the carbon number of that component, with a value around 0.3 where the carbon number is about 20 79-tso. For mixtures involving polar compounds, the expression 74-tso for the reduced second virial coefficient, Bij pc,ij /(RTc,ij), contains a polar term, f (2) (Tr), where f (2) (Tr ) = aij Tr6 − bij Tr8 .

(1.26)

For polar + non-polar binaries, aij = 0 and bij = 0, so the calculation of Bij is carried out in exactly the same way as for non-polar binaries. Initial considerations 74-tso suggested that kij could be considered as constant for a given type of mixture with, for example, values of 0.13 for hydrocarbon + ketone, 0.15 for hydrocarbon + alkanol and 0.40 for hydrocarbon + water. More extensive results indicate that the optimum values for kij increase with the critical volume of the other component 97-tso/dym. For polar + polar binaries, the arithmetic mean rule is applied to each parameter: aij = 0.5 (ai + a j )

(1.27)

bij = 0.5 (bi + b j ) .

(1.28)

Values for a and b have been given for a number of substances 74-tso, 75-tso. For some polar haloalkanes, a was expressed in terms of the reduced dipole moment, with the leading term proportional to the dipole moment to the power 8. In application to halogenated methanes and halogenated ethanes, Weber 94-web, 97-web showed, from consideration of the Stockmayer intermolecular potential energy function for representation of these interactions, that a should be proportional to the dipole moment to the power 4. In order to obtain this correct dependence on dipole moment, the final term in each of the two parts of the Tsonopoulos equation (1.20) was omitted. It was found that the B data for the polar compounds in these series were best represented with a given by

a = −9 ⋅10−7 µ r2

(1.29)

where the reduced dipole moment, µr , is defined as

µr = 105 µ 2 pc Tc2 .

(1.30)

This representation gave a better fit than the Tsonopoulos equation for most of the compounds in these series 2000-dym. For extension to B12, Weber uses the same expression for the corresponding-states temperature dependence as for B, with equations (1.21 to 1.23) for Tc,ij, pc,ij and ωij, and with µr,ij given by

µr,ij = 105 µi µ j pc,ij Tc,2ij .

(1.31)

Since polar-polar interactions are usually specific 74-tso, values of kij have to be derived either from experimental data for each system, or by analysis of vapour-liquid equilibrium data, using a simple equation of state, or from bubble-point curves and liquid phase compositions. Morrison and McLinden 93-mor/mcl give an empirical correlation of this parameter. Whether the Tsonopoulos or Weber correlation is used, just one experimental data point is required to determine kij and then Bij can be calculated for a range of temperatures. An alternative approach to the calculation of interaction second virial coefficients is that of Hayden and O’Connell 75-hay/oco. This uses the molecular concepts of free, metastable and bound pairs to which can be added the chemical contribution for strongly interacting pairs. For pure components, the

Landolt-Börnstein New Series IV/21B

8

1.7 Glossary of Symbols

generalised correlation requires the critical temperature and pressure, the mean radius of gyration, dipole moment and, where necessary, a parameter to describe molecular association. Mixing rules are given to enable calculations to be made of interaction second virial coefficients. The overall fit to mixture data for different kinds of molecules is similar to that given by the Tsonopoulos equation For a satisfactory correlation of interaction third virial coefficients, it is best to turn to empirical methods. Chueh and Prausnitz 67-chu/pra-1 proposed that Cijk could be written as: Cijk = (Cij C jk Cik ) . 13

(1.32)

Terms such as Cij can be evaluated by the expression of Orbey and Vera 83-orb/ver, which gives the coefficient in reduced form as: Cij pc,2 ij

(

( RT )

2

c,ij

= 0.01407 + 0.02432 Tr2.8 − 0.00313 Tr10.5

)

+ω ij −0.02676 + 0.01770 Tr2.8 + 0.040 Tr3.0 − 0.003 Tr6.0 − 0.00228 Tr10.5 .

(1.33)

The parameters pc,ij, Tc,ij, and ωij are related to the pure component parameters by equations (1.21 to 1.23) and kij can be taken from the references given above. The advantage of this approach over other correlations for the third virial coefficient 67-chu/pra-1, 79-des/gra is that it uses critical pressure rather than critical volume, and only two other easily determined parameters. An alternative approach 94-web, 97-web is to relate the third virial coefficients to the experimental second virial coefficients, and to the corresponding hard-sphere values, where the quantities involved are functions of temperature and reduced dipole moment.

1.5

Data Evaluation

1.5.1

Data Storage and Processing

The values of virial coefficients presented in this review were obtained through the following steps. (a) Search of the world's scientific literature, (b) Collection in a computer-readable database, (c) Extraction of second interaction virial coefficients from the database and selection of the "best" values, and (d) Fitting of these B12 values to a function of temperature. Virial coefficients are constants in the virial equation of state of gases. They are not measured directly but are derived from a variety of observed properties. They are functions of temperature. Only those values based on some observation are reported here. The numerical values were extracted from the original publications, or from those collected by the Polish Academy of Science 96-dym/mar. The latter source furnished about one-third of the total set. To ensure integrity all values were then checked against the original documents after they were entered into the database. Literature through the end of 1998 is covered in the collection. The numerical values of virial coefficients presented in this review were inserted into the SOURCE data system maintained by the Thermodynamics Research Center. The SOURCE contains experimental values of thermodynamic, thermochemical, and transport properties of pure compounds and binary and ternary mixtures 99-wil, 99-wil/mar, 2001-fre/don, 2001-yan/don. Each property value is linked to the compound or components of a mixture by use of a registry number assigned by Chemical Abstracts Service or by the Thermodynamics Research Center. Each value is also linked to the document that reports it. A key consisting of (a) the year of publication, (b) the first three letters of the last name of the first author and (c) the first three letters of the last name of the second author, if any, identifies literature references. An additional integer starting with 0 is included to form a unique key. As new data are published, they are added to SOURCE, thus maintaining a complete set which can serve as the basis for future compilations. Each property value in SOURCE is accompanied by an estimate of uncertainty. This Landolt-Börnstein New Series IV/21B

1.7 Glossary of Symbols

9

takes the form of a bias, which defines a range of values below and above the property value. It is expected that the true value of the property lies in this range with a high probability (see references 99wil, 99-wil/mar for additional explanation of uncertainties.) Uncertainties are assigned by the person responsible for adding the value to the database, or by a later evaluation. They are based on an assessment of the information in the original report, including uncertainties reported by the author. The assignment reflects all recognized sources of experimental error. All errors, independent of what variable is directly affected, are propagated to the listed virial coefficient.

1.5.2

Selection of B12 Values

Data values for second interaction virial coefficients were extracted from SOURCE by suitable software and then screened to identify the "best" (most accurate) values. The selection was based on a comparison of the estimated uncertainties of values for the same mixture. The selection also took into account the distribution of virial coefficients with temperature using an algorithm developed by the Thermodynamics Research Center and used for several compilations. Briefly, the uncertainty for each data value in a set was compared to a weighted mean of the uncertainties of all the other values. The weighting factor was an inverse exponential function of the absolute value of the difference between the temperature of the value being evaluated and the temperatures of the other values. The screening level, the size of the data set, and range of temperatures covered determined the parameters used in the comparison. Additional details are given in 96-wil/mar. Selected values are marked with various symbols in the tables of data.

1.5.3

Fitting B12 Values to Smoothing Functions

The selected values of the second interaction virial coefficients for each mixture were fitted to a smoothing function of temperature by the least-squares criterion, whenever there were three or more data values over an appreciable temperature range. The squares of the deviation between calculated and observed values were weighted in proportion to the reciprocal of the square of the estimated uncertainties. The data were then scaled by subtracting the means of each term in the polynomial from the given values. This eliminated the constant term. The singular-value decomposition technique 88-pre/fla was used for the remaining coefficients. The constant was then regenerated from the means. The smoothing function used for the second virial coefficient was a polynomial in reciprocal temperature:

B12 = ∑ ai Ti .

(1.34)

The number of terms used in these polynomials was sufficient to generate a random deviation between calculated and selected observed values. This number usually depended on the range of temperature covered by the data set. The maximum order of the polynomials was usually three. Additional terms seldom improved the fit significantly. The following metrics are given for each fitted set as a measure of fit to the data. The degree of freedom represents the number of distinct values in the selected set minus the order of the polynomial. The number of distinct values is the number separated by at least 1.5 K. The root-mean-square deviation (unweighted) is given by:

∑ ( B12,exp − B12,calc )

2

RMS =

n

where n is the total number of values in the data set.

Landolt-Börnstein New Series IV/21B

(1.35)

10

1.7 Glossary of Symbols

The root-mean-square deviation (weighted) is given by:

∑ wi ( B12,exp − B12,calc ) ∑ wi

2

RMS =

(1.36)

where wi = 1 ui2 with ui the estimated uncertainty in the ith value. These functions have no theoretical basis. They furnish means of calculating tables of smoothed values of the second interaction virial coefficients and their derivatives and of visualising the scatter of experimental values.

1.6

The Tables

For those compounds where the values of B12 have been fitted by an equation, values for the equation coefficients and calculated B12 values at selected temperatures are given in Table 1. Experimental B12 data are presented in Table 2, together with an estimate of the uncertainty (δB). Where the B12 data have been fitted, the experimental results are denoted as Bexp, and deviations of the calculated values from these data, Bexp - Bcalc, are given. Plots of these deviations are shown. Values for second virial coefficients for mixtures, BM, together with their estimated uncertainty, δBM, are tabulated in Table 3, with the mole fraction composition. Excess second virial coefficients and their uncertainties, BE ± δBE, are given in Table 4. Third virial coefficient data for mixtures, with uncertainty values, CM ± δCM, are given in Table 5, and values for the different third interaction virial coefficients are listed, with their uncertainties, in Tables 6 and 7. These third interaction virial coefficients are not fitted in this review. Chapter 2 contains tables of second and third virial coefficients of mixtures containing an inorganic compound with either an inorganic compound or an organic compound. The order of the tables is according to the Hill system as used by Chemical Abstracts for the inorganic compound, with the second component again in alphabet order according to the Hill system. In this way all mixtures associated with a particular inorganic compound are grouped together. The Hill system involves placing the compounds in their alphabetic order except when C is present, in which case C is placed first, H second, and the remaining elements in alphabetic order. Chapter 3 contains mixtures of organic compounds, with the first compound ordered by the Hill system. The second components are also in Hill order. When two compounds have the same Hill formula, they are ordered alphabetically by compound name.

1.7

Glossary of Symbols

ai aij, bij B C D f (2) f12 F J3 k kij n Landolt-Börnstein New Series IV/21B

coefficient in equation (1.34) coefficients in equation (1.26) second virial coefficient third virial coefficient fourth virial coefficient polar term in equation (1.26) Meyer function: below equation (1.19) excess third virial coefficient a function of inlet and outlet pressures defined in equation (1.18) Boltzmann constant binary interaction coefficient number of data sets

NA p R R12 T u U V w x y Z

Avogadro constant pressure intermolecular separation gas constant temperature estimated uncertainty intermolecular potential energy function volume weight applied to individual data points mole fraction mole fraction of liquid in a gas compressibility factor or compression factor

11

References for Chapter 1

φ µ ν θ, φ,,ψ ω ω

liquid fugacity coefficient dipole moment partial molar volume Euler angles acentric factor orientation

Subscripts 1,2 11, 22

component number second virial coefficients of pure components (with B) 12 second interaction virial coefficient (with B) 111, 222 third virial coefficients of pure components (with C)

112, 122 third interaction virial coefficients (with C) c critical L liquid m molar mix mixture o pure liquid N net retention volume (with V) r reduced infinite dilution ∞ Superscripts * E

virial coefficients in the pressure series excess property

References for Chapter 1 59-kno/bee 59-pra/ben 62-fen/hal 65-eve 67-chu/pra 67-chu/pra-1 67-kno 68-rig/pra 69-bre/van 69-cru/gai 70-hiz/dun 72-hem/kin 74-tso 75-hay/oco 75-tso 76-cop/col 78-ng /mea 79-des/gra 79-tso 80- pas/han 82-bel/dun 82-ohg/nak 83-mce/has 83-orb/ver 85-mol/ang 87-jae 88-bar/azi 88-bow/tan Landolt-Börnstein New Series IV/21B

Knobler, C. M.; Beenakker, J. J. M.; Knaap, H. F. P.; Physica 25 (1959) 909. Prausnitz, J. M.; Benson, P. R.; AIChE J. 5 (1959) 161. Fender, B. E. F.; Halsey, G. D., Jr.; J. Chem. Phys. 36 (1962) 1881. Everett, D. H.; Trans. Faraday Soc. 61 (1965) 1637. Chueh, P.L.; Prausnitz, J. M.; Ind. Eng. Chem. Fundamen. 6 (1967) 492. Chueh, P.L.; Prausnitz, J. M.; AIChE J. 13 (1967) 896. Knobler, C. M.; Rev. Sci. Instr. 38 (1967) 184. Rigby, M.; Prausnitz, J. M.; J. Phys. Chem. 72 (1968) 330. Brewer, J.; Vaughn, G. W.; J. Chem. Phys. 50 (1969) 2960. Cruickshank, A. J. B.; Gainey, B. W.; Hicks, C. P.; Letcher, T. M.; Moody, R. W.; Young, C. L.; Trans. Faraday Soc. 65 (1969) 1014. Hiza, M. J.; Duncan, A. G.; AIChE J. 16 (1970) 1099. Hemmaplardh, B.; King, Jr., A. D.; J. Phys. Chem. 76 (1972) 2170. Tsonopoulos, C.; AIChE J 20 (1974) 263. Hayden, J. G.; O’Connell, J. P.; Ind. Eng. Chem., Proc. Des. Dev. 14 (1975) 209. Tsonopoulos, C.; AIChE J 21 (1975) 827. Copeland, T. G.; Cole, R. H.; J. Chem. Phys. 64 (1976) 1747. Ng, K.-C.; Meath, W.J.; Allnatt, A.R.; Chem. Phys. 32 (1978) 175. De Santis, R.; Grande, B.; AIChE J. 25 (1979) 937. Tsonopoulos, C.; Advan. Chem. Ser., No. 182 (1979) 143. Pasco, N. F.; Handa, Y. P.; Scott, R. L.; Knobler, C. M.; J. Chem. Thermodyn. 12 (1980) 11. Bell, T. N.; Dunlop, P. J.; Rev. Sci. Instr. 53 (1982) 83. Ohgaki, K.; Nakamura, Y.; Ariyasu, H.; Katayama, T.; J. Chem. Eng. Japan 15 (1982) 85. McElroy, P. J.; Hashim, H.; Tatt, W. L.; AIChE J. 29 (1983) 1007. Orbey, H.; Vera, J. H.; AIChE. J. 29 (1983) 107. Mollerup, J.; Angelo, P.; Fluid Phase Equilib. 19 (1985) 259. Jaeschke, M.; Int. J. Thermophys. 8 (1987) 81. Barrow, D. A.; Aziz, R. A.; J. Chem. Phys. 89 (1988) 6189. Bowers, M.S.; Tang, K.T.; Toennies, J.P.; J. Chem. Phys. 88 (1988) 5465.

12

88-fon/mar 88-pie/ope 88-pre/fla 89-bar/sla 89-tso/dym 90-eub/hal 92-azi/sla 92-ewi/tru 93-ben/cas 93-big/dun 93-mor/mcl 94-ler/bis 94-web 95-bla/wei 95-dha/mcc 96-dha/mea 96-dym/mar

96-hut/ern 96-sat/kiy 96-tru/wak 96-wil/mar

97-tso/dym 97-web 99-wil 99-wil/mar 99-wor/joh 2000-dym 2001-fre/don 2001-yan/don 2002-dym/mar

Landolt-Börnstein New Series IV/21B

References for Chapter 1

Fontalba, F.; Marsh, K.N.; Holste, J. C.; Hall, K. R.; Fluid Phase Equilib. 41 (1988) 141. Pietsch, R.; Opel, G.; Z. Phys. Chem. (Leipzig) 269 (1988) 705. Press, W. H.; Flannery, B. P.; Teukolsky, S. A.; Vetterlling, W. T.; Numerical Recipes in C, New York; Cambridge Univ. Press (1988). Barrow, D. A.; Slaman, M. J.; Aziz, R. A.; J. Chem. Phys. 91 (1989) 6348. Tsonopoulos, C.; Dymond, J. H.; Szafranski, A. M.; Pure Appl. Chem. 61 (1989) 1387. Eubank, P. T.; Hall, K. R.; AIChE J. 36 (1990) 1661. Aziz, R.A.; Slaman, M.J.; Koide, A.; Allnattt, A.R., Meath, W.J.; Mol. Phys. 77 (1992) 321. Ewing, M. B.; Trusler, J. P. M.; Physica A 184 (1992) 437. Beneventi, L.; Casavecchia, P.; Volpi, G.G.; Wong, C.C.K.; McCourt, F.R.W.; J. Chem. Phys. 98 (1993) 7926. Bignell, C. M.; Dunlop, P. J.; J. Chem. Eng. Data 38 (1993) 139. Morrison, G.; McLinden, M. O.; Int. J. Refrig. 16 (1993) 129. Le Roy, R.J.; Bissonnette, C.; Wu, T.H.; Dham, A.K.; Meath, W.J.; Faraday Discuss. 97 (1994) 81. Weber, L. A.; Int. J. Thermophys. 15 (1994) 461. Blanke, W.; Weiss, R.; Int. J. Thermophys. 16 (1995) 643. Dham, A.K.; McCourt, F.R.W.; Meath, W.J.; J. Chem. Phys. 103 (1995) 8477. Dham, A.K.; Meath, W.J.; Mol. Phys. 88 (1996) 339. Dymond, J. H.; Marsh K. N.; Maczynski, A.; Floppy Book for Virial Coefficients of Pure Gases and Gas Mixtures, TRC Databases for Chemistry and Engineering, Thermodynamics Research Center, Texas A&M University, (1996). Hutson, J.M.; Ernesti, A.; Law, M.M.; Roche, C.F.; Wheatley, R.J.; J. Chem. Phys. 105 (1996) 9130. Sato, T.; Kiyoura, H.; Sato, H.; Watanabe, K.; Int. J. Thermophys. 17 (1996) 43. Trusler, J. P. M.; Wakeham, W. A.; Zarari, M. P.; Int. J. Thermophys. 17 (1996) 5. Wilhoit R. C.; Marsh, K. N.; Hong, X.; Gadalla, N.; Frenkel, M.; Thermodynamic Properties of Organic Compounds and Their Mixtures, Subvolume B. Densities of Aliphatic Hydrocarbons Alkanes, Landolt-Börnstein, Group IV. Physical Chemistry, Vol. 8, Berlin; Springer-Verlag, (1996). Also Subvolumes C-I (1997-2002). Tsonopoulos, C.; Dymond, J. H.; Fluid Phase Equilib. 133 (1997) 11. Weber, L. A.; Int. J. Thermophys. 18 (1997) 161. Wilhoit, R. C.; Documentation for the TRC Source Database, Thermodynamics Research Center, College Station TX, 77843, Nov. (1999), 207. Wilhoit R. C.; Marsh, K. N.; Int. J. Thermophys. 10 (1999) 247. Wormald, C. J.; Johnson, P. W.; J. Chem. Thermodyn. 31 (1999) 1085. Dymond, J. H.; Fluid Phase Equilib. 174 (2000) 13. Frenkel, M.; Dong, Q.; Wilhoit, R. C.; Hall, K. R.; Int. J. Thermophys. 22 (2001) 215. Yan, X.; Dong, Q.; Frenkel, M.; Hall, K. R.; Int. J. Thermophys. 22 (2001) 227. Dymond, J. H.; Marsh, K. N.; Wilhoit, R. C.; Wong, S. K.; Virial Coefficients of Pure Gases and Mixtures, Subvolume A, Virial Coefficients of Pure Gases, LandoltBörnstein, Series IV/21A (2002).

13

2 Mixtures Containing an Inorganic Compound

2 Virial Coefficients of Mixtures Containing an Inorganic Compound Argon Carbon monoxide

[7440-37-1] [630-08-0]

Ar CO

MW = 39.95 MW = 28.01

1

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.1874 ⋅ 10 − 8.6870 ⋅ 103/(T/K) − 1.4896 ⋅ 106/(T/K)2 + 2.5386 ⋅ 107/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -120.0 ± 3 -45.6 ± 3

T/K 125 200

T/K 250 300

(B12 ± 2σest)/cm3· mol-1 -25.1 ± 3 -12.7 ± 3

T/K 350 475

(B12 ± 2σest)/cm3· mol-1 -4.5 ± 3 7.2 ± 3

(B 12 - B 12 calc)/cm 3·mol -1

6 4 2 0 -2 -4 -6 -8 -10 -12 100

150

200

250

300

350

400

450

500

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 123.20 -122.81 ± 2.0 0.4 67-bre (×) 148.20 -86.38 ± 2.0 0.4 67-bre (×) 173.20 -62.76 ± 1.0 0.3 67-bre (×) 213.00 -45.10 ± 5.0 -6.0 80-sch/geh (…) 223.00 -38.40 ± 5.0 -3.7 80-sch/geh (…) 223.20 -34.45 ± 1.0 0.2 67-bre (×) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T K 242.00 262.00 273.20 276.00 295.00 296.15 _________

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -28.80 ± 5.0 -1.1 80-sch/geh (…) -21.40 ± 5.0 0.2 80-sch/geh (…) -18.48 ± 1.0 0.2 67-bre (×) -17.20 ± 5.0 0.7 80-sch/geh (…) -13.40 ± 5.0 0.3 80-sch/geh (…) -13.30 ± 5.0 0.2 82-sch/mue (▲) cont. ______________________________________

_____________________________________

14

2 Mixtures Containing an Inorganic Compound

Argon + Carbon monoxide (cont.) Table 2. (cont.) T Bexp ± δB K cm3· mol-1 296.15 -11.90 ± 1.5 330.00 -9.30 ± 4.0 353.15 -2.10 ± 2.0 365.00 -4.60 ± 4.0 400.00 0.20 ± 4.0 _________

______________________________________

Bexp - Bcalc cm3· mol-1 1.6 -1.9 2.0 -2.0 -1.0 _____________________________________

Ref. (Symbol in Fig. 1) 96-vat/sch (z) 80-sch/geh (…) 96-vat/sch (z) 80-sch/geh (…) 80-sch/geh (…)

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol ___________

________________________________________

123.20 0.500 148.20 0.500 173.20 0.500

0.66 ± 0.20 0.07 ± 0.20 -0.22 ± 0.20

67-bre 67-bre 67-bre

Argon Carbonyl sulfide

T K 413.15 425.00 450.00 463.15 475.00 _________

T K

___________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 5.20 ± 3.0 2.7 3.40 ± 4.0 -0.1 5.80 ± 4.0 0.3 9.30 ± 3.0 2.9 7.20 ± 4.0 0.0 ______________________________________

BE ± δBE cm3· mol-1

x1

T K 310.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 66.8 ± 1.0 92-bel/big 300.00 0.500 68.1 ± 1.0 92-bel/big

T x1 K 310.00 0.500

_____________________________________________

___________

-------------------------------------------------------------

Argon Carbon dioxide

___________

67-bre 67-bre

MW = 39.95 MW = 60.08

B12 ± δB12 cm3· mol-1 -55.1 ± 4.5

2

Ref.

______________________________________________

___________

[7440-37-1] [124-38-9]

Ref.

-0.49 ± 0.20 -0.66 ± 0.20

Ar COS

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 -77.2 ± 5.0 92-bel/big 300.00 -64.7 ± 5.0 92-bel/big ___________

Ref. (Symbol in Fig. 1) 96-vat/sch (z) 80-sch/geh (…) 80-sch/geh (…) 96-vat/sch (z) 80-sch/geh (…)

________________________________________

223.20 0.500 273.20 0.500

[7440-37-1] [463-58-1]

_____________________________________

92-bel/big

BE ± δBE cm3· mol-1 65.2 ± 1.0

Ref.

-------------------------------------------------------------

Ar CO2

92-bel/big

MW = 39.95 MW = 44.01

3

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 7.2525 ⋅ 102 + 9.6341 ⋅ 105/(T/K) − 4.5827 ⋅ 108/(T/K)2 + 9.1873 ⋅ 1010/(T/K)3 − 6.7735 ⋅ 1012/(T/K)4 T/K 210 250

(B12 ± 2σest)/cm3· mol-1 -91.6 ± 5 -58.1 ± 4

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -39.3 ± 4 -22.2 ± 4

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -10.0 ± 4 -4.4 ± 4

cont. Landolt-Börnstein New Series IV/21B

15

2 Mixtures Containing an Inorganic Compound

Argon + Carbon dioxide (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 213.00 -86.3 ± 5.0 0.5 80-sch/geh (Ο) 213.00 -94.0 ± 7.0 -7.2 82-sch/mue (+) 223.00 -75.5 ± 5.0 -0.8 80-sch/geh (Ο) 223.20 -74.8 ± 1.0 -0.2 67-bre (…) 242.00 -62.9 ± 5.0 -1.1 80-sch/geh (Ο) 242.00 -70.0 ± 7.0 -8.2 82-sch/mue (+) 248.20 -58.4 ± 1.0 0.5 67-bre (…) 262.00 -50.8 ± 5.0 2.5 80-sch/geh (Ο) 273.20 -50.6 ± 1.0 -1.5 67-bre (…) 276.00 -43.3 ± 5.0 4.8 80-sch/geh (Ο) 276.00 -51.0 ± 6.0 -2.9 82-sch/mue (+) 288.20 -40.3 ± 2.0 3.3 69-lic/sch (▲) 290.00 -45.2 ± 1.4 -2.2 82-mar/tre (−) 290.00 -46.4 ± 4.0 -3.4 92-bel/big (∆) 295.00 -37.2 ± 5.0 3.9 80-sch/geh (Ο) 295.00 -44.0 ± 6.0 -2.9 82-sch/mue (+) 296.00 -37.0 ± 2.0 3.8 69-lic/sch (▲) 296.15 -44.1 ± 5.0 -3.4 82-sch/mue (+) 300.00 -40.8 ± 1.3 -1.5 82-mar/tre (−) _________

______________________________________

_____________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 223.20 0.500 60.4 ± 0.20 67-bre 248.20 0.500 44.9 ± 0.20 67-bre 273.20 0.500 35.1 ± 0.20 67-bre 290.00 0.500 28.8 ± 0.20 82-mar/tre 290.00 0.500 28.8 ± 1.00 92-bel/big ___________

_______________________________________

T K 300.00 303.15 303.20 310.00 313.20 320.00 322.85 323.10 330.00 330.00 333.15 363.15 365.00 400.00 400.00 425.00 450.00 450.00 475.00

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -41.7 ± 4.0 -2.4 92-bel/big (∆) -31.8 ± 4.6 6.4 56-cot/ham (×) -34.2 ± 2.0 3.9 69-lic/sch (▲) -38.6 ± 4.0 -2.9 92-bel/big (∆) -31.2 ± 2.0 3.3 69-lic/sch (▲) -35.3 ± 1.3 -3.2 82-mar/tre (−) -30.1 ± 2.0 1.0 70-bos/col (z) -28.3 ± 2.0 2.7 69-lic/sch (▲) -27.3 ± 5.0 1.4 80-sch/geh (Ο) -35.0 ± 5.0 -6.3 82-sch/mue (+) -25.8 ± 4.2 1.8 56-cot/ham (×) -19.6 ± 4.2 -1.2 56-cot/ham (×) -16.2 ± 5.0 1.7 80-sch/geh (Ο) -6.0 ± 4.0 4.0 80-sch/geh (Ο) -13.0 ± 3.0 -3.0 82-sch/mue (+) -3.1 ± 4.0 3.3 80-sch/geh (Ο) 0.5 ± 4.0 4.9 80-sch/geh (Ο) -7.0 ± 2.0 -2.6 82-sch/mue (+) 1.7 ± 4.0 5.6 80-sch/geh (Ο)

T K 300.00 300.00 310.00 320.00

x1

_________

___________

______________________________________

_____________________________________

0.500 0.500 0.500 0.500

BE ± δBE cm3· mol-1 27.5 ± 0.20 26.9 ± 1.00 25.3 ± 1.00 23.4 ± 0.20

400

450

Ref.

________________________________________

82-mar/tre 92-mar/tre 92-mar/tre 82-mar/tre

3

(B 12 - B 12calc)/cm ·mol

-1

15 10 5 0 -5 -10 -15 -20 200

250

300

350

500

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Landolt-Börnstein New Series IV/21B

16

2 Mixtures Containing an Inorganic Compound

Argon Hydrogen chloride

[7440-37-1] [7647-01-0]

Ar ClH

MW = 39.95 MW = 36.46

4

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.6897 ⋅ 10 − 8.7669 ⋅ 102/(T/K) − 4.8549 ⋅ 106/(T/K)2 + 1.5096 ⋅ 108/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -90.0 ± 7 -54.6 ± 5

T/K 200 250

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -34.4 ± 5 -21.7 ± 4

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 190.00 -99.3 ± 8.0 0.9 79-sch/leu-1(∆) 200.00 -90.7 ± 7.5 -0.7 79-sch/leu-1(∆) 225.00 -70.5 ± 6.5 -0.9 79-sch/leu-1(∆) 250.00 -54.6 ± 5.7 0.0 79-sch/leu-1(∆) 275.00 -42.0 ± 5.1 1.2 79-sch/leu-1(∆) 295.00 -36.1 ± 4.8 -0.1 79-sch/leu-1(∆) 300.00 -34.4 ± 4.7 0.0 79-sch/leu-1(∆) _________

______________________________________

_____________________________________

T K 330.00 370.00 400.00 420.00 450.00 480.00 _________

T/K 400 475

(B12 ± 2σest)/cm3· mol-1 -13.3 ± 3 -5.1 ± 3

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -26.4 ± 4.3 -0.3 -17.8 ± 3.9 0.2 -13.7 ± 3.7 -0.4 -10.5 ± 3.5 0.2 -7.6 ± 3.4 -0.2 -4.4 ± 3.2 0.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 79-sch/leu-1(∆) 79-sch/leu-1(∆) 79-sch/leu-1(∆) 79-sch/leu-1(∆) 79-sch/leu-1(∆) 79-sch/leu-1(∆)

10

(B 12 - B 12calc)/cm3·mol-1

8 6 4 2 0 -2 -4 -6 -8 -10 150

200

250

300

350

400

450

500

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

17

2 Mixtures Containing an Inorganic Compound

Argon Sulfur hexafluoride

[7440-37-1] [2551-62-4]

Ar F6S

MW = 39.95 MW = 146.06

5

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.0203 ⋅ 102 − 7.6387 ⋅ 104/(T/K) + 1.3478 ⋅ 107/(T/K)2 − 1.6307 ⋅ 109/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -92.2 ± 4 -63.2 ± 4

T/K 250 300

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -44.2 ± 3 -30.2 ± 3

(B12 ± 2σest)/cm3· mol-1 -19.1 ± 3 -2.1 ± 3

T/K 450 550

8

(B 12 - B 12calc)/cm3·mol -1

6 4 2 0 -2 -4 -6 250

300

350

400

450

500

550

600

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. Bexp - Bcalc Ref. (Symbol T Bexp ± δB K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.20 -76.1 ± 3.0 0.9 76-san/uri-1(…) 283.20 -67.2 ± 3.0 4.2 76-san/uri-1(…) 290.00 -71.0 ± 2.0 -3.0 82-mar/tre-1(z) 290.00 -71.2 ± 2.0 -3.2 82-mar/tre-1(z) 292.90 -70.2 ± 2.0 -3.6 81-bel/dun (∆) 293.20 -62.2 ± 3.0 4.2 76-san/uri-1(…) 300.00 -66.2 ± 2.0 -3.0 74-bel/rei (×) 300.00 -65.7 ± 2.0 -2.5 82-mar/tre-1(z) 303.20 -57.4 ± 3.0 4.4 76-san/uri-1(…) _________

______________________________________

Landolt-Börnstein New Series IV/21B

_____________________________________

T K 304.50 313.20 315.00 320.00 320.00 320.00 320.00 323.20 340.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -62.1 ± 2.0 -0.9 -53.0 ± 3.0 4.5 -56.0 ± 2.0 0.8 -57.8 ± 2.0 -3.0 -53.2 ± 2.0 1.6 -52.9 ± 2.0 1.9 -52.7 ± 2.0 2.1 -50.0 ± 3.0 3.6 -51.3 ± 2.0 -3.8 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-bel/dun (∆) 76-san/uri-1(…) 81-bel/dun (∆) 74-bel/rei (×) 81-bel/dun (∆) 82-mar/tre-1(z) 82-mar/tre-1(z) 76-san/uri-1(…) 74-bel/rei (×) cont.

18

2 Mixtures Containing an Inorganic Compound

Argon + Sulfur hexafluoride (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 370.00 -41.6 ± 2.0 -3.4 74-bel/rei (×) 400.00 -31.7 ± 2.0 -1.5 74-bel/rei (×) 430.00 -23.4 ± 2.0 -0.2 74-bel/rei (×) 460.00 -16.2 ± 2.0 0.9 74-bel/rei (×)

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 490.00 -10.8 ± 2.0 0.8 520.00 -6.8 ± 2.0 -0.2 550.00 -3.9 ± 2.0 -1.8

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 290.00 0.500 87.6 ± 0.2 82-mar/tre-1 290.00 0.500 87.4 ± 0.2 82-mar/tre-1 292.90 0.500 84.3 ± 0.3 81-bel/dun 300.00 0.500 80.6 ± 0.2 82-mar/tre-1 304.50 0.500 77.8 ± 0.3 81-bel/dun

T K 315.00 320.00 320.00 320.00

_________

______________________________________

___________

_____________________________________

--_______________________________________

Argon Hydrogen

_________

______________________________________

x1

___________

[7440-37-1] [1333-74-0]

_____________________________________

BE ± δBE cm3· mol-1 72.6 ± 0.3 70.2 ± 0.3 71.4 ± 0.2 71.6 ± 0.2

Ref. (Symbol in Fig. 1) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×)

Ref.

________________________________________

0.500 0.500 0.500 0.500

Ar H2

81-bel/dun 81-bel/dun 82-mar/tre-1 82-mar/tre-1

MW = 39.95 MW = 2.02

6

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.3749 ⋅ 10 − 8.2782 ⋅ 103/(T/K) − 7.4655 ⋅ 104/(T/K)2 + 7.1912 ⋅ 107/(T/K)3 − 5.7163 ⋅ 109/(T/K)4 T/K 80 150

(B12 ± 2σest)/cm3· mol-1 -80.5 ± 10 -14.7 ± 5

T/K 200 300

(B12 ± 2σest)/cm3· mol-1 -4.1 ± 3 7.3 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 77.30 -84.5 ± 9.0 5.7 82-sch/eli (×) 87.10 -65.8 ± 9.0 -4.2 82-sch/eli (×) 90.00 -52.1 ± 3.0 3.8 59-kno/bee () 90.10 -60.5 ± 9.0 -4.8 82-sch/eli (×) 148.15 -16.8 ± 3.0 -1.5 69-bre/vau (z) 150.00 -18.5 ± 5.0 -3.8 80-per/sch (…) 170.00 -10.3 ± 1.0 -0.6 67-zan/bee (Ο) 173.15 -9.6 ± 3.0 -0.5 69-bre/vau (z) 175.00 -10.4 ± 5.0 -1.7 80-per/sch (…) 180.00 -7.8 ± 0.8 -0.1 67-zan/bee (Ο) 190.00 -5.7 ± 0.6 0.1 67-zan/bee (Ο) 198.15 -4.2 ± 3.0 0.2 69-bre/vau (z) 200.00 -4.0 ± 0.5 0.1 67-zan/bee (Ο) 200.00 -4.5 ± 5.0 -0.4 80-per/sch (…) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T K 210.00 220.00 223.15 230.00 240.00 248.15 250.00 250.00 260.00 270.00 273.15 290.00 293.15 298.15 _________

T/K 400 500

(B12 ± 2σest)/cm3· mol-1 13.5 ± 3 17.4 ± 3

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -2.4 ± 0.4 0.1 -0.9 ± 0.2 0.2 -0.5 ± 3.0 0.2 0.3 ± 0.2 0.1 1.5 ± 0.2 0.1 2.6 ± 3.0 0.2 2.5 ± 0.2 -0.1 3.3 ± 5.0 0.7 3.5 ± 0.2 -0.1 4.2 ± 0.2 -0.4 5.3 ± 3.0 0.4 7.2 ± 0.5 0.7 7.2 ± 0.4 0.5 7.8 ± 3.0 0.7 -----______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-zan/bee (Ο) 67-zan/bee (Ο) 69-bre/vau (z) 67-zan/bee (Ο) 67-zan/bee (Ο) 69-bre/vau (z) 67-zan/bee (Ο) 80-per/sch (…) 67-zan/bee (Ο) 67-zan/bee (Ο) 69-bre/vau (z) 82-mar/tre (−) 71-lop/roz (∆) 69-bre/vau (z) cont.

19

2 Mixtures Containing an Inorganic Compound

Argon + Hydrogen (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 300.00 7.8 ± 0.5 0.5 300.00 8.1 ± 5.0 0.8 320.00 9.3 ± 0.5 0.5 323.15 9.4 ± 3.0 0.4 _________

______________________________________

_____________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 8.40 ± 0.20 82-mar/tre 300.00 0.500 8.30 ± 0.20 82-mar/tre ___________

T K 350.00 400.00 450.00 500.00

Ref. (Symbol in Fig. 1) 82-mar/tre (−) 80-per/sch (…) 82-mar/tre (−) 69-bre/vau (z)

________________________________________

_________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 11.4 ± 5.0 0.6 13.8 ± 5.0 0.3 15.6 ± 5.0 0.0 16.7 ± 5.0 -0.7 ____________________________________

T x1 K 320.00 0.500 ___________

_____________________________________

Ref. (Symbol in Fig. 1) 80-per/sch (…) 80-per/sch (…) 80-per/sch (…) 80-per/sch (…)

Ref. BE ± δBE 3 -1 cm · mol 7.60 ± 0.20 82-mar/tre _______________________________________

(B 12 - B 12calc)/cm3·mol-1

15 10 5 0 -5 -10 -15 50

100

150

200

250

300

350

400

450

500

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Argon Water

[7440-37-1] [7732-18-5]

Ar H2O

MW = 39.95 MW = 18.02

7

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.7025 ⋅ 103 − 1.8921 ⋅ 106/(T/K) + 6.9275 ⋅ 108/(T/K)2 − 8.4515 ⋅ 1010/(T/K)3 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -37.5 ± 5 -19.6 ± 5

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -18.6 ± 5 -8.6 ± 5

T/K

(B12 ± 2σest)/cm3· mol-1

cont. Landolt-Börnstein New Series IV/21B

20

2 Mixtures Containing an Inorganic Compound

Argon + Water (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.15 -37.0 ± 6.0 2.4 68-rig/pra (Ο) 323.15 -25.0 ± 5.0 -1.7 68-rig/pra (Ο) 348.15 -20.0 ± 4.0 -0.3 68-rig/pra (Ο) 373.15 -14.0 ± 3.0 5.5 68-rig/pra (Ο) 373.20 -19.0 ± 7.0 0.5 81-ric/wor-1() 373.20 -24.0 ± 7.0 -4.5 88-wor/lan (∆) 383.20 -18.0 ± 3.0 1.4 81-ric/wor-1() 383.20 -20.0 ± 3.0 -0.6 88-wor/lan (∆) _________

______________________________________

_____________________________________

T K 393.20 393.20 403.20 403.20 413.20 413.20 423.20 423.20 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -23.0 ± 5.0 -3.9 -24.0 ± 5.0 -4.9 -19.0 ± 4.0 -0.7 -18.0 ± 4.0 0.3 -18.0 ± 8.0 -0.8 -16.0 ± 7.0 1.2 -15.0 ± 4.5 0.5 -12.0 ± 4.0 3.5 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-ric/wor-1() 88-wor/lan (∆) 81-ric/wor-1() 88-wor/lan (∆) 81-ric/wor-1() 88-wor/lan (∆) 81-ric/wor-1() 88-wor/lan (∆)

15

5

3

(B 12 - B 12calc)/cm ·mol

-1

10

0

-5

-10

-15 275

300

325

350

375

400

425

450

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Argon Ammonia

[7440-37-1] [7664-41-7]

Ar H3N

MW = 39.95 MW = 17.03

8

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 1.1969 · 10 + 2.1313 · 104/(T/K) - 8.7141 · 106/(T/K)2

cont. Landolt-Börnstein New Series IV/21B

21

2 Mixtures Containing an Inorganic Compound

Argon + Ammonia (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 250 -66.1 ± 5 300 -37.7 ± 3

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -22.2 ± 3 -13.1 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 238.15 -73.0 ± 15.0 3.1 91-sch/eli (∆) 253.15 -62.0 ± 10.0 1.8 91-sch/eli (∆) 273.15 -52.0 ± 9.0 -1.3 91-sch/eli (∆) 296.15 -43.0 ± 6.0 -3.6 91-sch/eli (∆) 298.15 -39.3 ± 3.0 -0.8 92-glo (…) _________

______________________________________

_____________________________________

T K 323.20 348.20 373.20 398.20 423.20 _________

T/K 420

(B12 ± 2σest)/cm3· mol-1 -10.6 ± 3

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -29.0 ± 3.0 0.4 -22.5 ± 2.0 0.1 -17.2 ± 1.5 0.2 -13.4 ± 0.5 0.0 -10.3 ± 0.5 0.0 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 92-glo (…) 92-glo (…) 92-glo (…) 92-glo (…) 92-glo (…)

-1

10

(B 12 - B 12calc)/cm ·mol

15

3

20

5 0 -5 -10 -15 200

250

300

350

400

450

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 298.15 12.6 ± 0.1 92-glo 323.15 7.1 ± 0.1 92-glo 348.15 4.5 ± 0.1 92-glo

T K 373.15 398.15 423.15

C112 ± δC112 103· cm6· mol-2 3.1 ± 0.1 2.2 ± 0.1 1.4 ± 0.1

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm 6· mol-2 298.15 -4.6 ± 0.1 92-glo 323.15 -3.1 ± 0.1 92-glo 348.15 -1.9 ± 0.1 92-glo

T K 373.15 398.15 423.15

C122 ± δC122 103· cm 6· mol-2 -0.8 ± 0.1 0.2 ± 0.1 0.1 ± 0.1

___________

___________

Landolt-Börnstein New Series IV/21B

_________________________________________________________

_________________________________________________________

___________

___________

Ref.

__________________________________________________________

92-glo 92-glo 92-glo

Ref.

__________________________________________________________

92-glo 92-glo 92-glo

22

2 Mixtures Containing an Inorganic Compound

Argon Helium

[7440-37-1] [7440-59-7]

Ar He

MW = 39.95 MW = 4.00

9

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.4965 ⋅ 10 + 6.8188 ⋅ 103/(T/K) − 2.6724 ⋅ 106/(T/K)2 + 3.2953 ⋅ 108/(T/K)3 − 1.3616 ⋅ 1010/(T/K)4 (B12 ± 2σest)/cm3· mol-1 9.3 ± 3 14.9 ± 3 17.1 ± 3

T/K 100 200 250

T/K 300 350 400

(B12 ± 2σest)/cm3· mol-1 18.5 ± 2 19.4 ± 1 19.9 ± 1

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 90.00 6.6 ± 3.0 1.3 59-kno/bee () 148.15 12.2 ± 3.0 -0.1 69-bre/vau (▲) 173.15 13.9 ± 3.0 0.4 69-bre/vau (▲) 198.15 15.3 ± 3.0 0.5 69-bre/vau (▲) 223.15 15.9 ± 3.0 -0.1 69-bre/vau (▲) 223.15 16.1 ± 0.2 0.1 70-bla/hal (z) 248.15 16.8 ± 3.0 -0.2 69-bre/vau (▲) 273.15 17.1 ± 3.0 -0.7 69-bre/vau (▲) 273.15 17.6 ± 0.2 -0.2 70-bla/hal (z) 290.00 17.7 ± 0.6 -0.6 82-mar/tre (Ο) 298.15 18.1 ± 3.0 -0.4 69-bre/vau (▲)

3

(B 12 - B 12calc)/cm ·mol

-1

_________

______________________________________

_____________________________________

T K 300.00 303.15 320.00 323.15 323.15 373.15 473.15 573.15 673.15 773.15 _________

(B12 ± 2σest)/cm3·mol-1 20.2 ± 1 20.3 ± 1 20.0 ± 1

T/K 450 500 750

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 18.4 ± 0.6 -0.1 18.8 ± 0.1 0.2 18.7 ± 0.6 -0.2 18.4 ± 3.0 -0.6 18.4 ± 0.2 -0.6 19.7 ± 0.1 0.0 20.3 ± 0.2 0.0 20.4 ± 0.2 0.0 20.4 ± 0.3 0.2 19.8 ± 0.3 -0.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 82-mar/tre (Ο) 67-kal/mil (…) 82-mar/tre (Ο) 69-bre/vau (▲) 70-bla/hal (z) 67-kal/mil (…) 67-kal/mil (…) 67-kal/mil (…) 67-kal/mil (…) 67-kal/mil (…)

5 4 3 2 1 0 -1 -2 -3 -4 -5 50

100

150

200

250

300

350

400

450

500

550

600

650

700

750

800

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) cont. Landolt-Börnstein New Series IV/21B

23

2 Mixtures Containing an Inorganic Compound

Argon + Helium (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 20.40 ± 0.20 82-mar/tre 300.00 0.500 20.40 ± 0.20 82-mar/tre ___________

_______________________________________

Argon Mercury

[7440-37-1] [7439-97-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 457.20 -47 ± 10 61-stu/row 491.20 -45 ± 10 61-stu/row ___________

_____________________________________________

Argon Krypton

BE ± δBE cm3· mol-1 18.80 ± 0.20

T x1 K 320.00 0.500 ___________

Ar Hg

[7440-37-1] [7439-90-9]

82-mar/tre

MW = 39.95 MW = 200.59 B12 ± δB12 cm3· mol-1 -19 ± 10 -11 ± 10

T K 529.20 578.20 ___________

Ref.

_______________________________________

10

Ref.

______________________________________________

Ar Kr

61-stu/row 61-stu/row

MW = 39.95 MW = 83.80

11

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.8147 · 10 − 1.5052 · 104/(T/K) − 1.5687 · 106/(T/K)2 T/K 110 150 200

(B12 ± 2σest)/cm3· mol-1 -228.3 ± 5 -131.9 ± 4 -76.3 ± 3

T/K 250 300 350

(B12 ± 2σest)/cm3· mol-1 -47.2 ± 3 -29.5 ± 5 -17.7 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 108.00 -236.2 ± 4.7 -0.5 62-fen/hal (×) 110.57 -224.9 ± 4.5 1.4 62-fen/hal (×) 113.27 -216.1 ± 4.3 0.9 62-fen/hal (×) 115.31 -208.0 ± 4.2 2.4 62-fen/hal (×) 116.53 -207.8 ± 2.0 -1.3 68-byr/jon (▲) 117.08 -206.7 ± 4.1 -1.8 62-fen/hal (×) 117.36 -204.3 ± 4.1 -0.3 62-fen/hal (×) 119.00 -198.4 ± 4.0 0.7 62-fen/hal (×) 119.38 -198.5 ± 2.0 -0.5 68-byr/jon (▲) 120.78 -193.7 ± 3.9 0.3 62-fen/hal (×) 123.62 -186.4 ± 3.7 -0.1 62-fen/hal (×) 124.43 -184.8 ± 1.5 -0.7 68-byr/jon (▲) 129.42 -172.4 ± 1.5 -0.6 68-byr/jon (▲) 131.01 -168.7 ± 1.5 -0.6 68-byr/jon (▲) 139.53 -151.0 ± 1.5 -0.7 68-byr/jon (▲) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T/K 400 500 700

(B12 ± 2σest)/cm3· mol-1 -9.3 ± 5 1.8 ± 5 13.4 ± 5

T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 148.20 -131.3 ± 2.0 3.5 67-bre (…) 149.47 -133.1 ± 1.5 -0.3 68-byr/jon (▲) 163.29 -115.1 ± 1.5 -2.2 68-byr/jon (▲) 173.20 -98.9 ± 2.0 2.2 67-bre (…) 179.02 -98.4 ± 1.5 -3.5 68-byr/jon (▲) 196.09 -82.0 ± 1.5 -2.6 68-byr/jon (▲) 198.20 -75.9 ± 2.0 1.8 67-bre (…) 202.00 -75.9 ± 6.0 -1.1 77-sch/sch ({) 213.00 -67.6 ± 6.0 -0.5 77-sch/sch ({) 219.51 -68.0 ± 1.5 -5.0 68-byr/jon (▲) 223.00 -60.0 ± 6.0 0.9 77-sch/sch ({) 223.20 -59.6 ± 2.0 1.2 67-bre (…) 233.00 -53.9 ± 6.0 1.4 77-sch/sch ({) 243.00 -49.0 ± 6.0 1.4 77-sch/sch ({) 253.00 -43.7 ± 6.0 2.2 77-sch/sch ({) cont. _________

______________________________________

_____________________________________

24

2 Mixtures Containing an Inorganic Compound

Argon + Krypton (cont.) Table 2. (Cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 253.85 -47.9 ± 1.5 -2.4 263.00 -40.0 ± 6.0 1.8 273.20 -37.2 ± 2.0 0.8 278.00 -34.0 ± 6.0 2.3 295.00 -29.0 ± 6.0 1.9 323.20 -29.4 ± 2.0 -6.0 330.00 -20.3 ± 6.0 1.6 345.00 -17.4 ± 6.0 1.3 355.00 -15.5 ± 6.0 1.2 370.00 -13.1 ± 6.0 0.9 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 68-byr/jon (▲) 77-sch/sch ({) 67-bre (…) 77-sch/sch ({) 77-sch/sch ({) 67-bre (…) 77-sch/sch ({) 77-ren/sch (z) 77-sch/sch ({) 77-sch/sch ({)

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 148.20 0.500 15.03 ± 0.20 67-bre 173.20 0.500 10.45 ± 0.20 67-bre 198.20 0.500 8.25 ± 0.20 67-bre ___________

________________________________________

T K 400.00 410.00 425.00 435.00 465.00 484.00 500.00 552.00 623.00 695.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -8.8 ± 6.0 0.5 -6.5 ± 6.0 1.4 -5.8 ± 6.0 0.2 -4.8 ± 6.0 -0.1 -1.9 ± 6.0 -0.4 0.1 ± 6.0 -0.3 0.9 ± 6.0 -0.9 6.1 ± 6.0 0.4 9.1 ± 6.0 -0.8 11.5 ± 6.0 -1.7 ______________________________________

T x1 K 223.20 0.500 273.20 0.500 323.20 0.500 ___________

_____________________________________

BE ± δBE cm3· mol-1 6.58 ± 0.20 4.96 ± 0.20 3.59 ± 0.20

Ref. (Symbol in Fig. 1) 77-sch/sch ({) 77-ren/sch (z) 77-sch/sch ({) 77-sch/sch ({) 77-sch/sch ({) 77-ren/sch (z) 77-sch/sch ({) 77-ren/sch (z) 77-ren/sch (z) 77-ren/sch (z)

Ref.

________________________________________

67-bre 67-bre 67-bre

10 8 (B 12 - B 12calc)/cm3·mol-1

6 4 2 0 -2 -4 -6 -8 -10 100

200

300

400

500

600

700

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

25

2 Mixtures Containing an Inorganic Compound

Argon Nitrogen

[7440-37-1] [7727-37-9]

Ar N2

MW = 39.95 MW = 28.01

12

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.9467 ⋅ 10 − 1.4212 ⋅ 104/(T/K) − 1.8873 ⋅ 105/(T/K)2 − 4.7010 ⋅ 107/(T/K)3 T/K 100 150 200

(B12 ± 2σest)/cm3· mol-1 -168.5 ± 10 -77.6 ± 7 -42.2 ± 5

T/K 250 300 350

(B12 ± 2σest)/cm3· mol-1 -23.4 ± 4 -11.7 ± 3 -3.8 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 75.00 -294.6 ± 1.0 0.4 92-ewi/tru (×) 80.00 -260.2 ± 1.0 -0.7 92-ewi/tru (×) 90.00 -195.0 ± 3.0 11.2 59-kno/bee (−) 90.00 -208.4 ± 1.0 -2.2 92-ewi/tru (×) 100.00 -171.3 ± 0.9 -2.8 92-ewi/tru (×) 110.00 -143.6 ± 0.8 -3.0 92-ewi/tru (×) 125.00 -113.0 ± 0.7 -2.6 92-ewi/tru (×) 143.15 -89.5 ± 5.0 -4.5 66-cra/son (…) 148.15 -81.6 ± 3.0 -2.1 69-bre/vau (z) 150.00 -79.3 ± 0.6 -1.7 92-ewi/tru (×) 163.15 -68.3 ± 3.0 -2.7 66-cra/son (…) 170.00 -60.5 ± 3.0 -0.3 67-zan/bee (▲) 173.15 -59.1 ± 3.0 -1.1 69-bre/vau (z) 180.00 -53.5 ± 2.6 -0.1 67-zan/bee (▲) 190.00 -47.4 ± 2.4 0.0 67-zan/bee (▲) 198.15 -44.0 ± 3.0 -0.9 69-bre/vau (z) 200.00 -42.0 ± 2.0 0.2 67-zan/bee (▲) 200.00 -42.3 ± 0.5 -0.1 92-ewi/tru (×) 203.15 -41.5 ± 2.0 -0.8 66-cra/son (…) 210.00 -37.2 ± 1.8 0.4 67-zan/bee (▲) 213.00 -40.0 ± 5.0 -3.7 80-sch/geh (Ο) 220.00 -32.8 ± 1.7 0.6 67-zan/bee (▲) 223.00 -36.0 ± 5.0 -3.7 80-sch/geh (Ο) 223.15 -32.6 ± 3.0 -0.4 69-bre/vau (z) 230.00 -29.0 ± 1.5 0.8 67-zan/bee (▲) 240.00 -25.6 ± 1.5 0.8 67-zan/bee (▲) 242.00 -28.0 ± 5.0 -2.2 80-sch/geh (Ο) 248.15 -23.7 ± 3.0 0.2 69-bre/vau (z) 250.00 -22.5 ± 1.5 0.9 67-zan/bee (▲) 250.00 -22.6 ± 0.4 0.8 92-ewi/tru (×) _________

______________________________________

_____________________________________

T K 260.00 262.00 270.00 273.15 273.15 276.00 290.00 290.00 295.00 296.15 298.15 300.00 300.00 300.00 320.00 320.00 323.15 330.00 353.15 365.00 400.00 400.00 413.15 425.00 450.00 463.15 475.00 500.00 600.00 700.00 _________

T/K 400 500 700

(B12 ± 2σest)/cm3· mol-1 2.0 ± 2 9.9 ± 1 18.6 ± 1

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -19.4 ± 1.5 1.3 67-zan/bee (▲) -20.3 ± 5.0 -0.2 80-sch/geh (Ο) -16.8 ± 1.4 1.3 67-zan/bee (▲) -16.9 ± 0.8 0.5 66-cra/son (…) -16.4 ± 3.0 1.0 69-bre/vau (z) -16.3 ± 5.0 0.4 80-sch/geh (Ο) -12.0 ± 1.0 1.7 82-mar/tre (z) -12.0 ± 1.5 1.7 86-dun/big (∆) -11.5 ± 5.0 1.2 80-sch/geh (Ο) -13.3 ± 5.0 -0.8 82-sch/mue (+) -10.9 ± 3.0 1.2 69-bre/vau (z) -10.5 ± 0.9 1.2 82-mar/tre (z) -10.6 ± 1.5 1.1 86-dun/big (∆) -10.4 ± 0.3 1.3 92-ewi/tru (×) -7.2 ± 0.9 1.0 82-mar/tre (z) -7.5 ± 1.5 0.7 86-dun/big (∆) -6.2 ± 3.0 1.5 69-bre/vau (z) -4.7 ± 4.0 1.9 80-sch/geh (Ο) -1.4 ± 1.0 2.0 96-vat/sch () 2.8 ± 4.0 4.7 80-sch/geh (Ο) 6.1 ± 4.0 4.1 80-sch/geh (Ο) -3.6 ± 0.2 -5.6 92-ewi/tru (×) 5.7 ± 2.0 2.4 96-vat/sch () 7.8 ± 5.0 3.4 80-sch/geh (Ο) 9.0 ± 5.0 2.6 80-sch/geh (Ο) 9.1 ± 3.0 1.7 96-vat/sch () 9.4 ± 5.0 1.1 80-sch/geh (Ο) 11.2 ± 0.2 1.3 92-ewi/tru (×) 15.9 ± 0.2 0.9 92-ewi/tru (×) 19.0 ± 0.2 0.4 92-ewi/tru (×) ______________________________________

_____________________________________

cont. Landolt-Börnstein New Series IV/21B

26

2 Mixtures Containing an Inorganic Compound

Argon + Nitrogen (cont.)

10

3

(B 12 - B 12calc)/cm ·mol

-1

15

5 0 -5 -10 50

100

150

200

250

300

350

400

450

500

550

600

650

700

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 -0.7 ± 0.2 82-mar/tre 290.00 0.500 -0.7 ± 0.4 86-dun/big 300.00 0.500 -0.6 ± 0.2 82-mar/tre

T K 300.00 320.00 320.00

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 143.15 2.9 ± 25.0 66-cra/son 163.15 2.3 ± 15.0 66-cra/son

T K 203.15 273.15

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 143.15 2.9 ± 24.0 66-cra/son 163.15 2.3 ± 16.0 66-cra/son

T K 203.15 273.15

___________

___________

___________

Argon Neon

________________________________________

_________________________________________________________

__________________________________________________________

___________

BE ± δBE cm3· mol-1 0.500 -0.7 ± 0.4 0.500 -0.6 ± 0.2 0.500 -0.9 ± 0.4 x1

C112 ± δC112 103· cm6· mol-2 1.7 ± 12.0 1.4 ± 10.0

___________

86-dun/big 82-mar/tre 86-dun/big

Ref.

_________________________________________________________

C122 ± δC122 103· cm6· mol-2 1.8 ± 12.0 1.4 ± 10.0

___________

[7440-37-1] [7440-01-9]

Ref.

_______________________________________

66-cra/son 66-cra/son

Ref.

____________-------_____________________________________________

Ar Ne

66-cra/son 66-cra/son

MW = 39.95 MW = 20.18

13

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.9286 + 1.2477 ⋅ 104/(T/K) − 4.1259 ⋅ 106/(T/K)2 + 3.7687 ⋅ 108/(T/K)3 − 1.2338 ⋅ 1010/(T/K)4

Landolt-Börnstein New Series IV/21B

27

2 Mixtures Containing an Inorganic Compound

cont.

Argon + Neon (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 100 -31.4 ± 3 150 -10.0 ± 3 200 1.6 ± 3

T/K 250 300 350

(B12 ± 2σest)/cm3· mol-1 7.8 ± 3 11.1 ± 3 12.9 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 84.42 -45.2 ± 1.7 -0.5 82-sha/rig (z) 87.42 -41.7 ± 2.0 -0.3 82-sha/rig (z) 90.00 -35.3 ± 3.0 3.6 59-kno/bee (×) 92.84 -35.5 ± 1.5 1.0 82-sha/rig (z) 95.82 -35.2 ± 1.2 -1.0 82-sha/rig (z) 101.94 -30.1 ± 1.1 0.1 82-sha/rig (z) 110.78 -25.4 ± 1.2 0.0 82-sha/rig (z) 121.34 -20.3 ± 2.0 0.1 82-sha/rig (z) 129.93 -17.3 ± 2.5 -0.4 82-sha/rig (z) 137.83 -16.1 ± 3.0 -2.1 82-sha/rig (z) 148.15 -8.4 ± 3.0 2.1 69-bre/vau (…) 173.15 -2.6 ± 3.0 1.2 69-bre/vau (…) 198.15 1.5 ± 3.0 0.2 69-bre/vau (…) 213.00 2.2 ± 4.0 -1.4 80-sch/geh (▲) 223.00 4.4 ± 5.0 -0.5 80-sch/geh (▲) _________

______________________________________

_____________________________________

T K 223.15 242.00 248.15 262.00 273.15 276.00 295.00 298.15 323.15 330.00 365.00 400.00 425.00 450.00 475.00 _________

T/K 400 450 475

(B12 ± 2σest)/cm3· mol-1 13.7 ± 2 14.1 ± 2 14.2 ± 2

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 4.5 ± 3.0 -0.4 6.9 ± 5.0 -0.1 6.9 ± 3.0 -0.7 9.5 ± 5.0 0.7 8.9 ± 3.0 -0.7 9.9 ± 5.0 0.1 10.5 ± 5.0 -0.4 10.9 ± 3.0 -0.1 12.2 ± 3.0 0.1 12.2 ± 5.0 -0.1 13.2 ± 5.0 0.0 13.7 ± 5.0 0.0 14.1 ± 5.0 0.1 14.2 ± 5.0 0.1 13.6 ± 5.0 -0.6 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 69-bre/vau (…) 80-sch/geh (▲) 69-bre/vau (…) 80-sch/geh (▲) 69-bre/vau (…) 80-sch/geh (▲) 80-sch/geh (▲) 69-bre/vau (…) 69-bre/vau (…) 80-sch/geh (▲) 80-sch/geh (▲) 80-sch/geh (▲) 80-sch/geh (▲) 80-sch/geh (▲) 80-sch/geh (▲)

·

8

4

3

(B 12 - B 12calc)/cm ·mol

-1

6

2 0 -2 -4 -6 -8 50

100

150

200

250

300

350

400

450

500

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

28

2 Mixtures Containing an Inorganic Compound

Argon Oxygen

[7440-37-1] [7782-44-7]

Ar O2

MW = 39.95 MW = 32.00

14

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3·mol-1 = 4.8775 ⋅ 10 − 2.3064 ⋅ 104/(T/K) + 1.7036 ⋅ 106/(T/K)2 − 1.6031 ⋅ 108/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -171.8 ± 3 -44.0 ± 2

T/K 100 200

T/K 250 350

(B12 ± 2σest)/cm3· mol-1 -26.5 ± 2 -7.0 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 90.00 -217.0 ± 3.0 0.1 59-kno/bee (×) 290.00 -16.8 ± 1.0 0.3 82-mar/tre (…) 296.15 -16.4 ± 1.5 -0.5 96-vat/sch (▲) 300.00 -15.2 ± 1.0 -0.1 82-mar/tre (…) _________

______________________________________

T K 320.00 353.15 413.15 463.15

_____________________________________

_________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 0.30 ± 0.20 82-mar/tre 300.00 0.500 0.40 ± 0.20 82-mar/tre ___________

T/K 400 450

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -11.5 ± 0.9 0.1 -6.4 ± 2.0 0.1 0.9 ± 3.0 0.2 5.2 ± 3.0 -0.1 ______________________________________

_____________________________________

BE ± δBE cm3· mol-1 0.30 ± 0.20

T x1 K 320.00 0.500 ___________

________________________________________

(B12 ± 2σest)/cm3· mol-1 -0.7 ± 2 4.2 ± 2

Ref. (Symbol in Fig. 1) 82-mar/tre (…) 96-vat/sch (▲) 96-vat/sch (▲) 96-vat/sch (▲)

Ref.

________________________________________

82-mar/tre

4

(B 12 - B 12calc)/cm3·mol-1

3 2 1 0 -1 -2 -3 -4 50

100

150

200

250

300

350

400

450

500

T /K .

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

29

2 Mixtures Containing an Inorganic Compound

Argon Xenon

[7440-37-1] [7440-63-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 173.20 -141.2 ± 2.0 67-bre 198.20 -108.0 ± 2.0 67-bre 223.20 -86.5 ± 2.0 67-bre

T K 273.20 323.20

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 173.20 0.500 75.5 ± 0.20 67-bre 198.20 0.500 58.5 ± 0.20 67-bre 223.20 0.500 45.6 ± 0.20 67-bre

T K 273.20 323.20

___________

______________________________________________

___________

________________________________________

Argon Tetrachloromethane

______________________________________________

Argon Tetrafluoromethane

_____________________________________________

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 290.00 0.500 19.1 ± 1.3 82-mar/tre 290.00 0.500 20.0 ± 3.0 93-big/dun 300.00 0.500 18.5 ± 1.2 82-mar/tre 300.00 0.500 19.6 ± 3.0 93-big/dun ___________

Landolt-Börnstein New Series IV/21B

T K 323.20 348.20 353.20 ___________

[7440-37-1] [75-73-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -37.2 ± 1.3 82-mar/tre 290.00 -38.0 ± 2.0 93-big/dun 300.00 -32.6 ± 1.2 82-mar/tre 300.00 -32.9 ± 2.0 93-big/dun ___________

___________

[7440-37-1] [56-23-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 273.20 -155 ± 3 72-gup/kin 298.20 -124 ± 2 72-gup/kin 323.20 -115 ± 15 71-vig/sem-1 ___________

___________

_______________________________________

T K 310.00 320.00 373.15 373.15 ___________

T K 310.00 320.00 373.15 373.15 ___________

Ar Xe

MW = 39.95 MW = 131.29

B12 ± δB12 cm3· mol-1 -56.2 ± 2.0 -36.7 ± 2.0

15

Ref.

_____________________________________________

x1

67-bre 67-bre

BE ± δBE cm3· mol-1 31.6 ± 0.20 24.5 ± 0.20

Ref.

________________________________________

0.500 0.500

Ar CCl4

MW = 39.95 MW = 153.82

B12 ± δB12 cm3· mol-1 -100 ± 2 -77 ± 2 -67 ± 15

67-bre 67-bre

16

Ref.

______________________________________________

Ar CF4

72-gup/kin 72-gup/kin 71-vig/sem-1

MW = 39.95 MW = 88.00

B12 ± δB12 cm3· mol-1 -29.1 ± 2.0 -26.0 ± 1.1 -14.0 ± 2.0 -14.0 ± 2.0

17

Ref.

_____________________________________________

x1

93-big/dun 82-mar/tre 71-dan/kno 71-sie/kno

BE ± δBE cm3· mol-1 19.2 ± 3.0 16.1 ± 1.1 10.0 ± 2.0 10.0 ± 1.0

Ref.

_______________________________________

0.500 0.500 0.500 0.500

93-big/dun 82-mar/tre 71-dan/kno 71-sie/kno

30

2 Mixtures Containing an Inorganic Compound

Argon Chlorodifluoromethane

[7440-37-1] [75-45-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 248.20 -44.5 ± 6.0 67-bre 273.20 -69.7 ± 5.0 67-bre ___________

_____________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 248.20 0.500 242.3 ± 0.2 67-bre 273.20 0.500 159.6 ± 0.2 67-bre ___________

_______________________________________

Argon Trichloromethane

______________________________________________

Argon Trifluoromethane

_____________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 62.8 ± 1.0 93-big/dun 300.00 0.500 63.3 ± 1.0 93-big/dun ___________

________________________________________

Argon Difluoromethane

_____________________________________________

T K 310.00 323.20 ___________

T K 310.00 ___________

[7440-37-1] [75-10-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 -40.4 ± 6 93-big/dun 300.00 -37.4 ± 6 93-big/dun ___________

T K 353.20 ___________

[7440-37-1] [75-46-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 -43.3 ± 4 93-big/dun 300.00 -38.6 ± 4 93-big/dun ___________

T K 298.20 ___________

[7440-37-1] [67-66-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -60.0 ± 15 71-vig/sem-1 ___________

T K 298.20 ___________

T K 310.00 ___________

Ar CHClF2

MW = 39.95 MW = 86.47

B12 ± δB12 cm3· mol-1 -64.2 ± 4.0

18

Ref.

_____________________________________________

67-bre

BE ± δBE cm3· mol-1 123.1 ± 0.2

x1

Ref.

_______________________________________

0.500

Ar CHCl3

67-bre

MW = 39.95 MW = 119.38

B12 ± δB12 cm3· mol-1 -59.0 ± 15

19

Ref.

____________________________________________

Ar CHF3

71-vig/sem-1

MW = 39.95 MW = 70.01

B12 ± δB12 cm3· mol-1 -34.0 ± 4 -25.0 ± 4

20

Ref.

______________________________________________

93-big/dun 76-cop/col

BE ± δBE cm3· mol-1 59.1 ± 1.0

x1

Ref.

_______________________________________

0.500

Ar CH2F2

93-big/dun

MW = 39.95 MW = 52.02

B12 ± δB12 cm3· mol-1 -32.8 ± 5

21

Ref.

_____________________________________________

93-big/dun cont.

Landolt-Börnstein New Series IV/21B

31

2 Mixtures Containing an Inorganic Compound

Argon + Difluoromethane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 126.5 ± 1.0 93-big/dun 300.00 0.500 116.6 ± 1.0 93-big/dun ___________

_

_______________________________________

Argon Bromomethane

T K 310.00 ___________

[7440-37-1] [74-83-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 287.80 -73.0 ± 2.0 69-lic/sch 296.00 -63.2 ± 2.0 69-lic/sch ___________

Argon Chloromethane

0.500

Ar CH3Br

93-big/dun

MW = 39.95 MW = 94.94

B12 ± δB12 cm3· mol-1 -56.1 ± 2.0 -37.8 ± 2.0

T K 303.20 323.10

[7440-37-1] [74-87-3]

Ref.

_______________________________________

___________

______________________________________________

BE ± δBE cm3· mol-1 106.6 ± 1.0

x1

22

Ref.

______________________________________________

Ar CH3Cl

69-lic/sch 69-lic/sch

MW = 39.95 MW = 50.49

23

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 7.6625 ⋅ 102 + 9.4837 ⋅ 105/(T/K) − 3.5161 ⋅ 108/(T/K)2 + 3.9333 ⋅ 1010/(T/K)3 T/K 250 300

(B12 ± 2σest)/cm3· mol-1 -81.2 ± 20 -55.0 ± 20

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -9.5 ± 20 21.7 ± 20

T/K 450

(B12 ± 2σest)/cm3· mol-1 36.5 ± 20

(B 12 - B 12calc)/cm3·mol-1

50 30 10 -10 -30 -50 275

300

325

350

375

400

425

450

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) cont. Landolt-Börnstein New Series IV/21B

32

2 Mixtures Containing an Inorganic Compound

Argon + Chloromethane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 288.20 -66.30 ± 2 -0.6 69-lic/sch (…) 293.82 -28.50 ± 25 32.2 67-bot/spu (×) 296.00 -57.90 ± 2 0.8 69-lic/sch (…) 303.20 -51.60 ± 2 0.4 69-lic/sch (…) 313.20 -43.60 ± 2 -1.2 69-lic/sch (…) _________

______________________________________

_____________________________________

Argon Fluoromethane

[7440-37-1] [593-53-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 -40.5 ± 4.0 93-big/dun 300.00 -35.6 ± 4.0 93-big/dun ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 290.00 0.500 78.6 ± 1.0 93-big/dun 300.00 0.500 73.1 ± 1.0 93-big/dun ___________

________________________________________

Argon Nitromethane

______________________________________________

Argon Methane

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -13.60 ± 25 18.2 -4.60 ± 25 7.0 0.80 ± 25 -8.2 16.10 ± 5 -16.3 ______________________________________

Ar CH3F

T K 310.00

Ref. (Symbol in Fig. 1) 67-bot/spu (×) 67-bot/spu (×) 67-bot/spu (×) 67-bot/spu (×)

MW = 39.95 MW = 34.03

24

Ref.

_____________________________________________

BE ± δBE cm3· mol-1 68.4 ± 1.0

x1

___________

93-big/dun 76-cop/col

Ref.

_______________________________________

0.500

Ar CH3NO2

93-big/dun

MW = 39.95 MW = 61.04

B12 ± δB12 cm3· mol-1 -62 ± 15

T K 353.20 ___________

[7440-37-1] [74-82-8]

_____________________________________

B12 ± δB12 cm3· mol-1 -29.0 ± 4.0 -28.0 ± 5.0

T K 310.00 323.20 ___________

[7440-37-1] [75-52-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -72 ± 20 63-bot/spu 323.20 -91 ± 15 71-vig/sem-1 ___________

T K 324.45 347.36 376.11 430.25 _________

25

Ref.

______________________________________________

Ar CH4

71-vig/sem-1

MW = 39.95 MW = 16.04

26

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3·mol-1 = − 1.2034 ⋅ 10 + 3.5690 ⋅ 104/(T/K) − 1.7184 ⋅ 107/(T/K)2 + 1.9559 ⋅ 109/(T/K)3 − 8.5469 ⋅ 1010/(T/K)4 T/K 110 150

(B12 ± 2σest)/cm3· mol-1 -222.0 ± 10 -127.1 ± 5

Landolt-Börnstein New Series IV/21B

T/K 200 300

(B12 ± 2σest)/cm3· mol-1 -72.1 ± 5 -22.1 ± 3

T/K 400 550

(B12 ± 2σest)/cm3· mol-1 -3.0 ± 2 6.9 ± 2 cont.

33

2 Mixtures Containing an Inorganic Compound

Argon + Methane (cont.)

(B 12- B 12calc)/cm3·mol-1

20 10 0 -10 -20 -30 -40 100

150

200

250

300

350

400

450

500

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 107.10 -233.1 ± 2.0 1.3 68-byr/jon (…) 108.61 -252.9 ± 11.1 -25.1 62-tho/van-1 (×) 109.69 -222.5 ± 2.0 0.8 68-byr/jon (…) 113.68 -207.5 ± 2.0 0.7 68-byr/jon (…) 119.48 -189.4 ± 2.0 0.3 68-byr/jon (…) 127.63 -168.4 ± 1.5 0.2 68-byr/jon (…) 138.99 -143.3 ± 1.5 2.1 68-byr/jon (…) 142.60 -138.6 ± 8.8 0.4 62-tho/van-1 (×) 149.27 -126.1 ± 1.5 2.1 68-byr/jon (…) 159.88 -119.2 ± 1.5 -5.9 68-byr/jon (…) 174.20 -94.0 ± 1.5 2.2 68-byr/jon (…) 176.70 -86.7 ± 7.7 6.9 62-tho/van-1 (×) 191.01 -78.8 ± 1.5 0.9 68-byr/jon (…) 201.20 -62.0 ± 2.0 9.2 74-hah/sch () 208.79 -66.1 ± 1.5 -0.7 68-byr/jon (…) 211.40 -54.0 ± 2.0 9.5 74-hah/sch () 228.96 -54.1 ± 1.5 -2.0 68-byr/jon (…) 231.50 -45.0 ± 2.0 5.6 74-hah/sch () 239.80 -48.1 ± 7.0 -2.1 62-tho/van-1 (×) 249.95 -43.9 ± 1.5 -3.0 68-byr/jon (…) 251.50 -37.0 ± 2.0 3.2 74-hah/sch () 272.20 -29.0 ± 2.0 2.4 74-hah/sch () 274.15 -35.2 ± 1.5 -4.5 68-byr/jon (…) 288.20 -23.3 ± 2.0 2.5 69-lic/sch (▲) 290.00 -27.0 ± 1.1 -1.8 82-mar/tre (+) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T K 290.00 295.00 296.00 296.00 296.15 300.00 300.00 300.00 303.20 308.00 310.00 313.20 320.00 320.00 323.10 333.50 340.00 353.80 370.00 373.15 374.00 393.90 400.00 413.80 423.15 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -27.9 ± 1.0 -2.7 -26.9 ± 6.5 -3.3 -21.9 ± 2.0 1.4 -22.0 ± 2.0 1.3 -21.1 ± 1.0 2.2 -27.9 ± 2.0 -5.8 -24.2 ± 1.1 -2.1 -24.8 ± 1.0 -2.7 -20.2 ± 2.0 1.0 -18.6 ± 1.0 1.3 -21.2 ± 1.0 -1.9 -18.0 ± 2.0 0.5 -23.4 ± 2.0 -6.6 -19.0 ± 1.1 -2.2 -15.7 ± 2.0 0.3 -13.7 ± 1.0 0.0 -19.2 ± 2.0 -6.9 -10.2 ± 1.0 -0.5 -13.6 ± 2.0 -6.6 -4.8 ± 0.4 1.8 -7.0 ± 1.0 -0.6 -4.2 ± 1.0 -0.5 -8.7 ± 2.0 -5.7 -2.0 ± 1.0 -0.5 2.8 ± 0.7 3.3 --------_____________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 93-big/dun (− −) 62-tho/van-1 (×) 69-lic/sch (▲) 74-hah/sch () 71-str/lic (z) 74-bel/rei (Ο) 82-mar/tre (+) 93-big/dun (-) 69-lic/sch (▲) 71-str/lic (z) 93-big/dun (-) 69-lic/sch (▲) 74-bel/rei (Ο) 82-mar/tre (+) 69-lic/sch (▲) 71-str/lic (z) 74-bel/rei (Ο) 71-str/lic (z) 74-bel/rei (Ο) 84-bar/lin (∆) 71-str/lic (z) 71-str/lic (z) 74-bel/rei (Ο) 71-str/lic (z) 84-bar/lin (∆) cont.

34

2 Mixtures Containing an Inorganic Compound

Argon + Methane (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 430.00 -4.7 ± 2.0 -4.8 434.00 0.1 ± 1.0 -0.4 453.40 1.9 ± 1.0 -0.2 460.00 -1.0 ± 2.0 -3.5 473.50 3.6 ± 1.0 0.2 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 74-bel/rei (Ο) 71-str/lic (z) 71-str/lic (z) 74-bel/rei (Ο) 71-str/lic (z)

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 108.61 0.61 -239.6 ± 9.8 62-tho/van-1 142.60 0.61 -131.8 ± 7.6 62-tho/van-1 176.70 0.61 -84.8 ± 6.7 62-tho/van-1 239.80 0.61 -45.5 ± 5.9 62-tho/van-1 295.00 0.61 -25.6 ± 5.5 62-tho/van-1 373.15 0.08 -4.1 ± 0.2 84-bar/lin 373.15 0.20 -4.7 ± 0.2 84-bar/lin 373.15 0.35 -6.6 ± 0.2 84-bar/lin 373.15 0.43 -7.7 ± 0.2 84-bar/lin ___________

_________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 123.20 0.50 45.1 ± 0.2 67-bre 148.20 0.50 14.1 ± 0.2 67-bre 173.20 0.50 11.1 ± 0.2 67-bre 223.20 0.50 6.7 ± 0.2 67-bre 273.20 0.50 4.8 ± 0.2 67-bre 290.00 0.50 4.7 ± 0.2 82-mar/tre ___________

________________________________________

Argon Methanol

Landolt-Börnstein New Series IV/21B

T K 373.15 373.15 373.15 423.15 423.15 423.15 423.15 423.15 423.15 ___________

T K 290.00 300.00 300.00 310.00 320.00 ___________

[7440-37-1] [67-56-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 288.15 -102 ± 2 72-hem/kin 298.15 -87 ± 4 72-hem/kin 310.15 -77 ± 3 72-hem/kin ___________

T K 490.00 493.00 520.00 550.00 _________

______________________________________________

T K 323.15 333.15 ___________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 1.8 ± 2.0 -2.6 5.3 ± 1.0 0.8 3.9 ± 2.0 -1.9 5.5 ± 2.0 -1.4

______________________________________

x2

_____________________________________

Ref. (Symbol in Fig. 1) 74-bel/rei (Ο) 71-str/lic (z) 74-bel/rei (Ο) 74-bel/rei (Ο)

Bm ± δBm cm3· mol-1 -9.6 ± 0.2 -13.7 ± 0.2 -15.8 ± 0.2 1.7 ± 0.2 1.4 ± 0.2 0.3 ± 0.2 -1.6 ± 0.2 -3.8 ± 0.2 -7.5 ± 0.2

Ref.

_________________________________________

0.56 0.76 0.82 0.08 0.15 0.28 0.59 0.65 0.85

BE ± δBE cm3· mol-1 4.6 ± 2.0 4.6 ± 0.2 5.0 ± 2.0 5.2 ± 2.0 4.3 ± 0.2

x1

84-bar/lin 84-bar/lin 84-bar/lin 84-bar/lin 84-bar/lin 84-bar/lin 84-bar/lin 84-bar/lin 84-bar/lin

Ref.

_______________________________________

0.50 0.50 0.50 0.50 0.50

Ar CH4O

93-big/dun 82-mar/tre 93-big/dun 93-big/dun 82-mar/tre

MW = 39.95 MW = 32.04

B12 ± δB12 cm3· mol-1 -72 ± 2 -71 ± 4

27

Ref.

______________________________________________

72-hem/kin 72-hem/kin

35

2 Mixtures Containing an Inorganic Compound

Argon Hexafluoroethane

[7440-37-1] [76-16-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 -63.8 ± 6.0 92-bel/big 300.00 -53.5 ± 6.0 93-bel/big

T K 310.00

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 290.00 0.500 84.4 ± 1.0 92-bel/big 300.00 0.500 81.9 ± 1.0 92-bel/big

T K 310.00

___________

_____________________________________________

___________

_______________________________________

Argon Pentafluoroethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 290.00 0.500 135.8 ± 1.0 93-big/dun-1 300.00 0.500 127.5 ± 1.0 93-big/dun-1 ___________

_______________________________________

Argon 1,1,1,2-Tetrafluoroethane

_____________________________________________

Table 4. Experimental BE values with uncertainty. T x1 BE ± δBE Ref. K cm3· mol-1 290.00 0.500 203.7 ± 1.0 93-big/dun-1 300.00 0.500 188.8 ± 1.0 93-big/dun-1 ___________

Landolt-Börnstein New Series IV/21B

_______________________________________

T K 310.00 ___________

MW = 39.95 MW = 138.01

B12 ± δB12 cm3· mol-1 -51.7 ± 6.0

BE ± δBE cm3· mol-1 73.9 ± 1

x1

T K 310.00

0.500

Ar C2HF5

92-bel/big

Ref. 92-bel/big

MW = 39.95 MW = 120.02

B12 ± δB12 cm3· mol-1 -55.3 ± 4.0

29

Ref.

_____________________________________________

BE ± δBE cm3· mol-1 119.5 ± 1.0

93-big/dun-1

Ref.

_______________________________________

Ar C2H2F4

93-big/dun-1

MW = 39.95 MW = 102.03

B12 ± δB12 cm3· mol-1 -54.9 ± 6.0

T x1 K 310.00 0.500 ___________

Ref.

_______________________________________

T x1 K 310.00 0.500

___________

28

_____________________________________________

___________

[7440-37-1] [811-97-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -73.6 ± 6.0 93-big/dun-1 300.00 -61.6 ± 6.0 93-big/dun-1 ___________

___________

[7440-37-1] [354-33-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -70.8 ± 4.0 93-big/dun-1 300.00 -61.9 ± 4.0 93-big/dun-1 ___________

___________

Ar C2F6

30

Ref.

_____________________________________________

BE ± δBE cm3· mol-1 173.6 ± 1.0

93-big/dun-1

Ref.

_______________________________________

93-big/dun-1

36

2 Mixtures Containing an Inorganic Compound

Argon 1,1,2,2-Tetrafluoroethane

[7440-37-1] [359-35-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 -68.2 ± 6.0 93-big/dun-1 300.00 -59.9 ± 6.0 93-big/dun-1 ___________

____________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 196.4 ± 1.0 93-big/dun-1 300.00 0.500 182.2 ± 1.0 93-big/dun-1 ___________

_______________________________________

Argon 1,1,1-Trifluoroethane

_____________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 161.7 ± 1.0 93-big/dun-1 300.00 0.500 149.6 ± 1.0 93-big/dun-1 ___________

_____________________________________

Argon 1,1,2-Trifluoroethane

___________

_____________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 273.3 ± 1.0 93-big/dun-1 300.00 0.500 250.1 ± 1.0 93-big/dun-1 ___________

Landolt-Börnstein New Series IV/21B

________________________________________

T K 310.00

T K 310.00

Ar C2H3F3

93-big/dun-1

Ref. 93-big/dun-1

MW = 39.95 MW = 84.04

B12 ± δB12 cm3· mol-1 -51.4 ± 6.0

32

Ref.

____________________________________________

BE ± δBE cm3· mol-1 139.2 ± 1.2

93-big/dun-1

Ref.

_____________________________________

Ar C2H3F3

93-big/dun-1

MW = 39.95 MW = 84.04

B12 ± δB12 cm3· mol-1 -51.0 ± 6.0

T x1 K 310.00 0.500 ___________

Ref.

BE ± δBE cm3· mol-1 162.0 ± 1.0

T x1 K 310.00 0.500

___________

31

________________________________________

___________

[7440-37-1] [430-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -67.7 ± 6.0 93-big/dun-1 300.00 -57.6 ± 6.0 93-big/dun-1

B12 ± δB12 cm3· mol-1 -59.0 ± 6.0

T x1 K 310.00 0.500

___________

MW = 39.95 MW = 102.03

_____________________________________________

___________

[7440-37-1] [420-46-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -66.1 ± 6.0 93-big/dun-1 300.00 -58.6 ± 6.0 93-big/dun-1 ___________

T K 310.00 ___________

Ar C2H2F4

33

Ref.

_____________________________________________

BE ± δBE cm3· mol-1 224.8 ± 1.0

93-big/dun-1

Ref.

_______________________________________

93-big/dun-1

37

2 Mixtures Containing an Inorganic Compound

Argon Ethene

[7440-37-1] [74-85-1]

Table 3. Experimental Bm values with uncertainty. x2 Ref. T Bm ± δBm 3 -1 K cm · mol 323.15 0.1239 -22.9 ± 2.40 71-bos/col 323.15 0.2018 -22.6 ± 1.40 71-bos/col 323.15 0.2155 -27.4 ± 4.60 71-bos/col ___________

__________________________________________

Argon 1,1-Difluoroethane

___________

______________________________________________

MW = 39.95 MW = 28.05

_________________________________________

Ar C2H4F2

0.500 0.500 0.500

Argon Fluoroethane

Ar C2H5F

[7440-37-1] [353-36-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -60.4 ± 4.0 93-big/dun-1 300.00 -53.8 ± 4.0 93-big/dun-1 ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 149.3 ± 1.0 93-big/dun-1 300.00 0.500 139.4 ± 1.0 93-big/dun-1 ___________

________________________________________

Argon Nitroethane

Landolt-Börnstein New Series IV/21B

T K 310.00

______________________________________________

T K 353.20 ___________

93-big/dun-1 92-bel/big 93-big/dun-1

Ref. 93-big/dun-1 92-bel/big 93-big/dun-1

MW = 39.95 MW = 48.06

B12 ± δB12 cm3· mol-1 -53.9 ± 4.0

T K 310.00

___________

Ref.

_______________________________________

___________

[7440-37-1] [79-24-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -125 ± 15 71-vig/sem-1 ___________

BE ± δBE cm3· mol-1 199.9 ± 1.0 180.8 ± 1.0 179.7 ± 1.0

x1

___________

________________________________________

35

_____________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. T BE ± δBE 3 -1 K cm · mol K 290.00 0.500 216.3 ± 1.0 92-bel/big 300.00 290.00 0.500 218.1 ± 1.0 93-big/dun-1 310.00 300.00 0.500 199.6 ± 1.0 92-bel/big 310.00 ___________

MW = 39.95 MW = 66.05

B12 ± δB12 cm3· mol-1 -57.2 ± 2.0 -55.3 ± 5.5 -52.7 ± 2.0

T K 300.00 310.00 310.00 ___________

34

Ref. Bm ± δBm 3 -1 cm · mol -46.0 ± 2.60 71-bos/col -46.0 ± 3.20 71-bos/col

T x2 K 323.15 0.4269 323.15 0.4473 ___________

[7440-37-1] [75-37-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -72.4 ± 6.0 92-bel/big 290.00 -62.6 ± 2.0 93-big/dun-1 300.00 -61.1 ± 5.5 92-bel/big

Ar C2H4

36

Ref.

_____________________________________________

x1

BE ± δBE cm3· mol-1 123.5 ± 1.0

93-big/dun-1

Ref.

_______________________________________

0.500

Ar C2H5NO2

93-big/dun-1

MW = 39.95 MW = 75.07

B12 ± δB12 cm3· mol-1 -97 ± 15

37

Ref.

_____________________________________________

71-vig/sem-1

38

2 Mixtures Containing an Inorganic Compound

Argon Ethane

[7440-37-1] [74-84-0]

Ar C2H6

MW = 39.95 MW = 30.07

38

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 9.2713 ⋅ 10 − 5.6437 ⋅ 104/(T/K) + 7.0318 ⋅ 106/(T/K)2 − 9.3813 ⋅ 108/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -130.9 ± 4 -80.6 ± 4

T/K 200 250

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -52.0 ± 4 -33.0 ± 3

(B12 ± 2σest)/cm3· mol-1 -19.1 ± 3 4.2 ± 3

T/K 400 525

10

(B 12 - B 12calc)/cm3·mol-1

8 6 4 2 0 -2 -4 -6 -8 -10 150

200

250

300

350

400

450

500

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 199.40 -134.0 ± 2.0 -2.2 74-hah/sch (▲) 211.40 -113.0 ± 2.0 3.2 74-hah/sch (▲) 231.50 -95.0 ± 2.0 0.5 74-hah/sch (▲) 245.84 -84.1 ± 2.0 -0.5 96-agu/num () 251.50 -79.0 ± 2.0 0.5 74-hah/sch (▲) 273.20 -64.0 ± 2.0 1.7 74-hah/sch (▲) 288.20 -58.7 ± 2.0 -1.1 69-lic/sch (×) 290.00 -55.1 ± 6.0 1.7 92-bel/big (Ο) 296.00 -54.4 ± 2.0 -0.5 69-lic/sch (×) 296.00 -52.0 ± 2.0 1.9 74-hah/sch (▲) 296.20 -54.4 ± 2.6 -0.6 74-sch/sch (▲) 300.00 -50.3 ± 6.0 1.7 92-bel/big (Ο) _________

______________________________________

_____________________________________

T K 303.20 310.00 313.20 323.10 333.00 353.20 365.00 392.80 432.10 472.30 510.60 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -51.0 ± 2.0 -0.4 -44.8 ± 6.0 2.9 -46.7 ± 2.0 -0.4 -42.7 ± 2.0 -0.3 -40.0 ± 2.0 -1.2 -31.6 ± 1.9 0.4 -29.0 ± 2.0 -0.6 -20.8 ± 1.6 0.1 -11.5 ± 1.0 0.4 -4.8 ± 0.7 -0.6 2.2 ± 0.4 0.1 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 69-lic/sch (×) 92-bel/big (Ο) 69-lic/sch (×) 69-lic/sch (×) 69-sch (…) 74-sch/sch (z) 69-sch (…) 74-sch/sch (z) 74-sch/sch (z) 74-sch/sch (z) 74-sch/sch (z)

cont. Landolt-Börnstein New Series IV/21B

39

2 Mixtures Containing an Inorganic Compound

Argon + Ethane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 254.84 0.500 64.1 ± 2.0 96-agu/num 290.00 0.500 51.7 ± 1.0 92-bel/big ___________

________________________________________

Argon Ethanol

[7440-37-1] [64-17-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -73 ± 5 73-gup/les 323.15 -63 ± 2 73-gup/les 323.20 -118 ± 15 71-vig/sem-1 ___________

______________________________________________

Argon Propanone

___________

______________________________________________

Argon Propane

39

Ref.

______________________________________________

Ar C3H6O

73-gup/les 71-vig/sem-1

MW = 39.95 MW = 58.08

B12 ± δB12 cm3· mol-1

T K

___________

[7440-37-1] [74-98-6]

92-bel/big 92-bel/big

MW = 39.95 MW = 46.07

B12 ± δB12 cm3· mol-1 -50 ± 3 -46 ± 15

T K 348.15 353.20 ___________

Ref.

_______________________________________

Ar C2H6O

[7440-37-1] [67-64-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -58 ± 15 71-vig/sem-1

BE ± δBE cm3· mol-1 48.8 ± 1.0 46.7 ± 1.0

T x1 K 300.00 0.500 310.00 0.500 ___________

40

Ref.

_____________________________________________

Ar C3H8

MW = 39.95 MW = 44.10

41

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.3285 ⋅ 102 − 9.7467 ⋅ 104/(T/K) + 1.5052 ⋅ 107/(T/K)2 − 1.8464 ⋅ 108/(T/K)3 − 3.4520 ⋅ 1011(T/K)4 T/K 200 250

(B12 ± 2σest)/cm3· mol-1 -217.0 ± 20 -116.4 ± 10

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -74.3 ± 7 -50.1 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 211.40 -183.0 ± 2.0 0.8 74-hah/sch (z) 231.50 -152.0 ± 2.0 -9.6 74-hah/sch (z) 248.20 -98.8 ± 3.0 19.7 67-bre (×) 251.50 -116.0 ± 2.0 -1.4 74-hah/sch (z) 273.20 -83.3 ± 3.0 10.0 67-bre (×) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T K 273.20 288.20 296.00 296.00 296.20 _________

T/K 400 500

(B12 ± 2σest)/cm3· mol-1 -33.1 ± 5 -8.9 ± 5

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -98.0 ± 2.0 -4.7 -84.5 ± 2.0 -2.6 -79.0 ± 2.0 -2.3 -81.0 ± 2.0 -4.3 -78.8 ± 3.4 -2.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 74-hah/sch (z) 69-lic/sch (…) 69-lic/sch (…) 74-hah/sch (z) 74-sch/sch (Ο) cont.

40

2 Mixtures Containing an Inorganic Compound

Argon + Propane (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 298.20 -70.2 ± 3.0 5.2 303.20 -74.6 ± 2.0 -2.3 313.20 -68.7 ± 2.0 -1.9 322.80 -62.9 ± 2.0 -1.0 333.00 -60.0 ± 2.0 -2.8 353.20 -48.9 ± 2.5 -0.1 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (×) 69-lic/sch (…) 69-lic/sch (…) 69-lic/sch (…) 69-sch (▲) 74-sch/sch (Ο)

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 248.20 0.500 205.0 ± 0.2 67-bre 273.20 0.500 161.5 ± 0.2 67-bre ___________

________________________________________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -45.0 ± 2.0 -0.6 -34.1 ± 2.0 1.1 -24.4 ± 1.7 -0.2 -15.5 ± 1.1 -0.9 -6.6 ± 0.8 -0.1

T K 365.00 392.90 432.30 473.00 511.80 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 69-sch (▲) 74-sch/sch (Ο) 74-sch/sch (Ο) 74-sch/sch (Ο) 74-sch/sch (Ο)

BE ± δBE cm3· mol-1 131.7 ± 0.2

T x1 K 298.20 0.500 ___________

Ref.

________________________________________

67-bre

25

(B 12 - B 12calc)/cm 3·mol -1

20 15 10 5 0 -5 -10 -15 -20 200

250

300

350

400

450

500

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Argon 2-Propanol

[7440-37-1] [67-63-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -80 ± 15 71-vig/sem-1 ___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 353.20 ___________

Ar C3H8O

MW = 39.95 MW = 60.10

B12 ± δB12 cm3· mol-1 -51 ± 15

42

Ref.

_____________________________________________

71-vig/sem-1

41

2 Mixtures Containing an Inorganic Compound

Argon Octafluorocyclobutane

[7440-37-1] [115-25-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 -117.7 ± 5.0 92-bel/big 300.00 -105.4 ± 5.0 92-bel/big ___________

_____________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 290.00 0.500 313.2 ± 1.0 92-bel/big 300.00 0.500 286.9 ± 1.0 92-bel/big ___________

________________________________________

Argon Butanone

T K 310.00 ___________

T K 310.00

___________

______________________________________________

Argon 1,4-Dioxane

___________

_____________________________________________

Argon Butane

B12 ± δB12 cm3· mol-1 -95.5 ± 5.0

Ref. 92-bel/big

BE ± δBE cm3· mol-1 264.3 ± 1.0

x1

Ref.

-----_______________________________________

0.500

Ar C4H8O

92-bel/big

MW = 39.95 MW = 72.11

B12 ± δB12 cm3· mol-1 -65 ± 15

T K 353.20

44

Ref.

______________________________________________

Ar C4H8O2

71-vig/sem-1

MW = 39.95 MW = 88.11

B12 ± δB12 cm3· mol-1 -86 ± 15

T K 353.20 ___________

[7440-37-1] [106-97-8]

43

______________________________________________

___________

[7440-37-1] [123-91-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -124 ± 15 71-vig/sem-1

MW = 39.95 MW = 200.03

___________

[7440-37-1] [78-93-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -86 ± 15 71-vig/sem-1

Ar C4F8

45

Ref.

______________________________________________

Ar C4H10

71-vig/sem-1

MW = 39.95 MW = 58.12

46

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 2.8373 ⋅ 102 + 3.3643 ⋅ 105/(T/K) − 1.3313 ⋅ 108/(T/K)2 + 1.4337 ⋅ 1010/(T/K)3 T/K 250 300

(B12 ± 2σest)/cm3· mol-1 -150.5 ± 10 -110.5 ± 10

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -74.9 ± 5 -50.7 ± 5

T/K 450 550

(B12 ± 2σest)/cm3· mol-1 -36.2 ± 5 -26.0 ± 5

cont. Landolt-Börnstein New Series IV/21B

42

2 Mixtures Containing an Inorganic Compound

Argon + Butane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 288.20 -120.9 ± 2.0 -0.6 69-lic/sch (▲) 296.00 -113.2 ± 2.0 0.6 69-lic/sch (▲) 296.20 -113.0 ± 5.4 0.6 74-sch/sch () 303.20 -107.7 ± 2.0 0.2 69-lic/sch (▲) 313.20 -100.3 ± 2.0 -0.2 69-lic/sch (▲) 323.10 -93.0 ± 2.0 -0.3 69-lic/sch (▲) _________

______________________________________

_____________________________________

T K 353.10 393.30 432.20 472.50 511.10 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -73.0 ± 4.2 0.1 -54.0 ± 3.6 -0.7 -40.0 ± 3.2 0.4 -32.0 ± 3.0 0.1 -28.0 ± 2.8 -0.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 74-sch/sch () 74-sch/sch () 74-sch/sch () 74-sch/sch () 74-sch/sch ()

-1

4

(B 12 - B 12calc)/cm ·mol

8

3

12

0 -4 -8 -12 250

300

350

400

450

500

550

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Argon 1-Butanol

[7440-37-1] [71-36-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -90 ± 11 73-mas/kin ___________

______________________________________________

Argon Diethyl ether

Landolt-Börnstein New Series IV/21B

T K

___________

[7440-37-1] [60-29-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -89 ± 6 73-mas/kin ___________

Ar C4H10O

_____________________________________________

B12 ± δB12 cm3· mol-1

T K

47

Ref.

______________________________________________

Ar C4H10O

___________

MW = 39.95 MW = 74.12

MW = 39.95 MW = 74.12

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

48

43

2 Mixtures Containing an Inorganic Compound

Argon Tetramethylsilane

[7440-37-1] [75-76-3]

Ar C4H12Si

MW = 39.95 MW = 88.22

49

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 7.0189 ⋅ 10 − 7.8617 ⋅ 104/(T/K) + 1.1857 ⋅ 107/(T/K)2 − 2.3154 ⋅ 109/(T/K)3 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -145.9 ± 10 -111.6 ± 8

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -88.4 ± 8 -71.4 ± 6

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 300.00 -147.2 ± 2.0 -1.3 74-bel/rei (▲) 320.00 -127.0 ± 2.0 3.4 74-bel/rei (▲) 340.00 -119.0 ± 2.0 -1.6 74-bel/rei (▲) 370.00 -102.0 ± 2.0 -0.6 74-bel/rei (▲) 400.00 -89.5 ± 2.0 -1.1 74-bel/rei (▲) _________

______________________________________

_____________________________________

T K 430.00 460.00 490.00 520.00 550.00 _________

T/K 500 550

(B12 ± 2σest)/cm3· mol-1 -58.1 ± 6 -47.5 ± 6

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -77.1 ± 2.0 0.5 74-bel/rei (▲) -67.3 ± 2.0 1.2 74-bel/rei (▲) -60.3 ± 2.0 0.3 74-bel/rei (▲) -54.2 ± 2.0 -0.6 74-bel/rei (▲) -47.6 ± 2.0 -0.1 74-bel/rei (▲) ______________________________________

_____________________________________

(B 12 - B 12calc)/cm3·mol-1

15 10 5 0 -5 -10 -15 250

300

350

400

450

500

550

600

T /K . Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

44

2 Mixtures Containing an Inorganic Compound

Argon Pyridine

[7440-37-1] [110-86-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -115 ± 15 71-vig/sem-1 ___________

_____________________________________________

Argon Cyclopentane

______________________________________________

Argon 1-Pentene

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -84 ± 12 68-cru/gai ___________

______________________________________________

Argon Pentane

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 289.15 -97 ± 8 73-mas/kin 298.15 -125 ± 23 68-dan/kno 298.15 -136 ± 18 68-dan/kno ___________

_____________________________________________

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 298.15 0.500 469 ± 4 68-dan/kno ___________

________________________________________

Argon 2-Methylbutane

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -94 ± 6 66-cru/win 298.15 -178 ± 14 68-dan/kno ___________

______________________________________________

Ar C5H12

T K 308.15

Ref.

MW = 39.95 MW = 72.15

B12 ± δB12 cm3· mol-1 -98 ± 6 -82 ± 15 -68 ± 15

T K 298.20 323.20 353.20

___________

52

______________________________________________

___________

[7440-37-1] [78-78-4]

51

Ref.

MW = 39.95 MW = 70.13

B12 ± δB12 cm3· mol-1

T K

___________

T K

71-vig/sem-1

______________________________________________

Ar C5H10

___________

Ref.

MW = 39.95 MW = 70.13

B12 ± δB12 cm3· mol-1

T K

___________

[7440-37-1] [109-66-0]

50

_____________________________________________

Ar C5H10

[7440-37-1] [109-67-1]

MW = 39.95 MW = 79.10

B12 ± δB12 cm3· mol-1 -95 ± 15

T K 353.20 ___________

[7440-37-1] [287-92-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -108 ± 15 71-vig/sem-1 ___________

Ar C5H5N

53

Ref.

______________________________________________

BE ± δBE cm3· mol-1

x1

66-cru/win 71-vig/sem-1 71-vig/sem-1

Ref.

_______________________________________

Ar C5H12

MW = 39.95 MW = 72.15

B12 ± δB12 cm3· mol-1 -78 ± 12

54

Ref.

______________________________________________

68-cru/gai cont.

Landolt-Börnstein New Series IV/21B

45

2 Mixtures Containing an Inorganic Compound

Argon + 2-Methylbutane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 298.15 0.500 408 ± 4 68-dan/kno ___________

________________________________________

Argon 2,2-Dimethylpropane

T K

___________

[7440-37-1] [463-82-1]

BE ± δBE cm3· mol-1

x1

Ref.

_______________________________________

Ar C5H12

MW = 39.95 MW = 72.15

55

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 9.6764 ⋅ 10 − 5.1023 ⋅ 104/(T/K) − 3.8480 ⋅ 106/(T/K)2 T/K 200 250

(B12 ± 2σest)/cm3· mol-1 -254.6 ± 30 -168.9 ± 20

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -116.1 ± 10 -80.4 ± 8

T/K 400 550

(B12 ± 2σest)/cm3· mol-1 -54.8 ± 6 -8.7 ± 5

60

(B 12 - B 12calc)/cm3·mol-1

40 20 0 -20 -40 -60 -80 150

200

250

300

350

400

450

500

550

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 199.62 -290.0 ± 29.0 -34.6 75-bau/wes (▲) 209.59 -242.0 ± 24.0 -7.7 75-bau/wes (▲) 219.56 -224.0 ± 22.0 -8.6 75-bau/wes (▲) 229.53 -201.0 ± 20.0 -2.4 75-bau/wes (▲) _________

______________________________________

_____________________________________

T K 240.15 249.45 257.91 296.15 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -172.0 ± 17.0 10.4 -143.0 ± 14.0 26.6 -111.0 ± 11.0 47.9 -126.7 ± 1.3 -7.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 75-bau/wes (▲) 75-bau/wes (▲) 75-bau/wes (▲) 71-str/lic (×)

cont. Landolt-Börnstein New Series IV/21B

46

2 Mixtures Containing an Inorganic Compound

Argon + 2,2-Dimethylpropane (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 300.00 -118.2 ± 2.0 -2.1 74-bel/rei (…) 308.00 -114.0 ± 1.1 -4.5 71-str/lic (×) 320.00 -100.1 ± 2.0 0.2 74-bel/rei (…`) 334.00 -90.8 ± 1.0 -0.3 71-str/lic (×) 340.00 -89.0 ± 2.0 -2.4 74-bel/rei (…) 353.50 -75.3 ± 1.0 3.1 71-str/lic (×) 370.00 -72.9 ± 2.0 -3.7 74-bel/rei (…) 373.60 -65.1 ± 1.0 2.3 71-str/lic (×) 394.30 -53.7 ± 1.0 3.7 71-str/lic (×) 400.00 -56.6 ± 2.0 -1.8 74-bel/rei (…) _________

______________________________________

_____________________________________

Argon Benzene

[7440-37-1] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -88 ± 6 66-cru/win 298.20 -100 ± 7 67-bra/kin 298.20 -112 ± 15 71-vig/sem-1 305.15 -135 ± 13 68-gai/you-1 305.20 -122 ± 3 69-coa/kin 313.15 -126 ± 12 68-gai/you-1 ___________

______________________________________________

Argon Cyclohexane

______________________________________________

Argon Methylcyclopentane

___________

Landolt-Börnstein New Series IV/21B

T K 323.15 323.15 323.15 323.20 323.20 353.20 ___________

______________________________________________

T K 353.20 ___________

T K

MW = 39.95 MW = 78.11

B12 ± δB12 cm3· mol-1 -85 ± 8 -79 ± 8 -90 ± 10 -95 ± 3 -117 ± 15 -105 ± 15

56

Ref. 68-eve/gai 68-eve/gai 68-gai/you-1 69-coa/kin 71-vig/sem-1 71-vig/sem-1

MW = 39.95 MW = 84.16

B12 ± δB12 cm3· mol-1 -86 ± 15

57

Ref.

______________________________________________

Ar C6H12

___________

_____________________________________

_____________________________________________

Ar C6H12

[7440-37-1] [96-37-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -127 ± 15 71-vig/sem-1

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -48.5 ± 1.0 0.5 71-str/lic (×) -44.1 ± 2.0 -1.4 74-bel/rei (…) -41.2 ± 1.0 0.1 71-str/lic (×) -34.0 ± 1.0 0.4 71-str/lic (×) -35.6 ± 2.0 -3.3 74-bel/rei (…) -28.5 ± 1.0 -0.4 71-str/lic (×) -27.9 ± 2.0 -4.5 74-bel/rei (…) -22.9 ± 1.0 -0.2 71-str/lic (×) -20.2 ± 2.0 -4.6 74-bel/rei (…) -14.1 ± 2.0 -5.4 74-bel/rei (…) ______________________________________

Ar C6H6

[7440-37-1] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -130 ± 15 71-vig/sem-1 323.20 -102 ± 15 71-vig/sem-1 ___________

T K 413.80 430.00 433.80 453.60 460.00 473.80 490.00 492.60 520.00 550.00 _________

71-vig/sem-1

MW = 39.95 MW = 84.16

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

58

47

2 Mixtures Containing an Inorganic Compound

Argon 1-Hexene

[7440-37-1] [592-41-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -110 ± 12 68-cru/gai ___________

______________________________________________

Argon Butyl ethanoate

______________________________________________

Argon Hexane

[7440-37-1] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.20 -130 ± 6 66-cru/win 298.15 -149 ± 65 68-dan/kno 298.15 -80 ± 73 68-dan/kno 298.15 -180 ± 50 68-dan/kno 298.20 -127 ± 6 66-cru/win 310.60 -104 ± 6 66-cru/win 323.15 -108 ± 32 68-dan/kno ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 298.15 0.500 807 ± 43 68-dan/kno ___________

________________________________________

Argon 2-Methylpentane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 298.15 0.500 701 ± 39 68-dan/kno ___________

Landolt-Börnstein New Series IV/21B

________________________________________

Ar C6H12O2

B12 ± δB12 cm3· mol-1 -119 ± 15

Ar C6H14

T K

___________

Ref. 71-vig/sem-1

MW = 39.95 MW = 86.18

x1

T K 298.20

60

______________________________________________

T K 323.15

___________

Ref.

MW = 39.95 MW = 116.16

B12 ± δB12 cm3· mol-1 -120 ± 9 -148 ± 27 -107 ± 6 -106 ± 15 -100 ± 6 -81 ± 15

___________

59

______________________________________________

T K 323.15 323.15 323.20 323.20 338.60 353.20 ___________

[7440-37-1] [107-83-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.15 -147 ± 49 68-dan/kno 298.20 -125 ± 6 66-cru/win ___________

T K 353.20 ___________

MW = 39.95 MW = 84.16

B12 ± δB12 cm3· mol-1

T K

___________

[7440-37-1] [123-86-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -138 ± 15 71-vig/sem-1 ___________

Ar C6H12

61

Ref.

______________________________________________

68-dan/kno 68-dan/kno 66-cru/win 71-vig/sem-1 66-cru/win 71-vig/sem-1

BE ± δBE cm3· mol-1 614 ± 7

Ref.

________________________________________

0.500

Ar C6H14

68-dan/kno

MW = 39.95 MW = 86.18

B12 ± δB12 cm3· mol-1 -115 ± 15

62

Ref.

______________________________________________

x1

71-vig/sem-1

BE ± δBE cm3· mol-1

________________________________________

Ref.

48

2 Mixtures Containing an Inorganic Compound

Argon 3-Methylpentane

[7440-37-1] [96-14-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -116 ± 15 71-vig/sem-1 ___________

______________________________________________

Argon 2,2-Dimethylbutane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 298.15 0.500 577 ± 16 68-dan/kno ___________

_______________________________________

Argon 2,3-Dimethylbutane

______________________________________________

Argon Toluene

______________________________________________

Argon 1,1-Dimethylcyclopentane

______________________________________________

B12 ± δB12 cm3· mol-1 -95 ± 12

T K 308.15 ___________

T K 353.20

BE ± δBE cm3· mol-1

x1

T K

68-cru/gai

64

Ref. 71-vig/sem-1

Ref.

________________________________________

MW = 39.95 MW = 86.18

B12 ± δB12 cm3· mol-1 -98 ± 12

65

Ref.

______________________________________________

68-cru/gai

MW = 39.95 MW = 92.14

B12 ± δB12 cm3· mol-1 -120 ± 15

66

Ref.

______________________________________________

Ar C7H14

___________

Ref.

______________________________________________

Ar C7H8

___________

63

MW = 39.95 MW = 86.18

B12 ± δB12 cm3· mol-1 -108 ± 15

Ar C6H14

[7440-37-1] [1638-26-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -134 ± 15 71-vig/sem-1 ___________

T K

___________

[7440-37-1] [108-88-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -135 ± 15 71-vig/sem-1 353.20 -123 ± 15 71-vig/sem ___________

T K 298.20 ___________

MW = 39.95 MW = 86.18

______________________________________________

Ar C6H14

[7440-37-1] [79-29-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -112 ± 15 71-vig/sem-1 ___________

T K 308.15 ___________

[7440-37-1] [75-83-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -156 ± 26 68-dan/kno 298.20 -115 ± 6 66-cru/win ___________

Ar C6H14

71-vig/sem-1

MW = 39.95 MW = 98.19

B12 ± δB12 cm3· mol-1

67

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

49

2 Mixtures Containing an Inorganic Compound

Argon trans-1,2-Dimethylcyclopentane

[7440-37-1] [822-50-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -136 ± 15 71-vig/sem-1 ___________

______________________________________________

Argon trans-1,3-Dimethylcyclopentane

______________________________________________

Argon cis-1,3-Dimethylcyclopentane

______________________________________________

Argon 1-Heptene

______________________________________________

Argon Heptane

___________

Landolt-Börnstein New Series IV/21B

T K

___________

T K

___________

______________________________________________

T K 353.20 ___________

68

Ref.

MW = 39.95 MW = 98.19

B12 ± δB12 cm3· mol-1

69

Ref.

______________________________________________

MW = 39.95 MW = 98.19

B12 ± δB12 cm3· mol-1

70

Ref.

______________________________________________

Ar C7H14

[7440-37-1] [142-82-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -136 ± 15 71-vig/sem-1

B12 ± δB12 cm3· mol-1

Ar C7H14

[7440-37-1] [592-76-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -139 ± 12 68-cru/gai ___________

T K

___________

MW = 39.95 MW = 98.19

______________________________________________

Ar C7H14

[7440-37-1] [2532-58-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -136 ± 15 71-vig/sem-1 ___________

T K

___________

[7440-37-1] [1759-58-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -136 ± 15 71-vig/sem-1 ___________

Ar C7H14

MW = 39.95 MW = 98.19

B12 ± δB12 cm3· mol-1

71

Ref.

______________________________________________

Ar C7H16

MW = 39.95 MW = 100.20

B12 ± δB12 cm3· mol-1 -97 ± 15

72

Ref.

______________________________________________

71-vig/sem-1

50

2 Mixtures Containing an Inorganic Compound

Argon 2-Methylhexane

[7440-37-1] [591-76-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -137 ± 15 71-vig/sem-1 ___________

______________________________________________

Argon 3-Methylhexane

______________________________________________

Argon 2,2-Dimethylpentane

______________________________________________

Argon 2,3-Dimethylpentane

______________________________________________

Argon 2,4-Dimethylpentane

___________

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 39.95 MW = 100.20

B12 ± δB12 cm3· mol-1

74

Ref.

MW 39.95 MW = 100.20

B12 ± δB12 cm3· mol-1

75

Ref.

______________________________________________

MW = 39.95 MW = 100.20

B12 ± δB12 cm3· mol-1

76

Ref.

______________________________________________

Ar C7H16

___________

73

______________________________________________

Ar C7H16

[7440-37-1] [108-08-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -130 ± 15 71-vig/sem-1

B12 ± δB12 cm3· mol-1

Ar C7H16

[7440-37-1] [565-59-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -135 ± 15 71-vig/sem-1 ___________

T K

___________

MW = 39.95 MW = 100.20

______________________________________________

Ar C7H16

[7440-37-1] [590-35-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -128 ± 15 71-vig/sem-1 ___________

T K

___________

[7440-37-1] [589-34-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -138 ± 15 71-vig/sem-1 ___________

Ar C7H16

MW = 39.95 MW = 100.20

B12 ± δB12 cm3· mol-1

77

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

51

2 Mixtures Containing an Inorganic Compound

Argon 3,3-Dimethylpentane

[7440-37-1] [562-49-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -132 ± 15 71-vig/sem-1 ___________

______________________________________________

Argon 2,2,3-Trimethylbutane

______________________________________________

Argon Styrene

______________________________________________

Argon Ethylbenzene

______________________________________________

Argon 1,2-Dimethylbenzene

___________

Landolt-Börnstein New Series IV/21B

T K 353.2 ___________

______________________________________________

T K

___________

T K

Ref.

MW 39.95 MW = 100.20

B12 ± δB12 cm3· mol-1

79

Ref.

MW = 39.95 MW = 104.15

B12 ± δB12 cm3· mol-1 -148 ± 15

80

Ref.

______________________________________________

71-vig/sem-1

MW = 39.95 MW = 106.17

B12 ± δB12 cm3· mol-1

81

Ref.

______________________________________________

Ar C8H10

___________

78

______________________________________________

Ar C8H10

[7440-37-1] [95-47-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -146 ± 15 71-vig/sem

B12 ± δB12 cm3· mol-1

Ar C8H8

[7440-37-1] [100-41-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -138 ± 15 71-vig/sem ___________

T K

___________

MW = 39.95 MW = 100.20

______________________________________________

Ar C7H16

[7440-37-1] [100-42-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -169 ± 15 71-vig/sem-1 ___________

T K

___________

[7440-37-1] [464-06-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -127 ± 15 71-vig/sem-1 ___________

Ar C7H16

MW = 39.95 MW = 106.17

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

82

52

2 Mixtures Containing an Inorganic Compound

Argon 1,3-Dimethylbenzene

[7440-37-1] [108-38-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -141 ± 15 71-vig/sem ___________

______________________________________________

Argon 1,4-Dimethylbenzene

______________________________________________

Argon 1-Octene

______________________________________________

Argon Octane

______________________________________________

Argon 2,2,4-Trimethylpentane

___________

T K

___________

______________________________________________

T K 353.20 ___________

[7440-37-1] [540-84-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -128 ± 15 71-vig/sem-1

B12 ± δB12 cm3· mol-1

T K 353.20 ___________

83

Ref.

MW = 39.95 MW = 106.17

B12 ± δB12 cm3· mol-1

84

Ref.

______________________________________________

Ar C8H16

[7440-37-1] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -160 ± 15 71-vig/sem-1 ___________

T K

___________

MW = 39.95 MW = 106.17

______________________________________________

Ar C8H10

[7440-37-1] [111-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -136 ± 12 68-cru/gai ___________

T K

___________

[7440-37-1] [106-42-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -143 ± 15 71-vig/sem ___________

Ar C8H10

MW = 39.95 MW = 112.22

B12 ± δB12 cm3· mol-1

85

Ref.

______________________________________________

Ar C8H18

MW = 39.95 MW = 114.23

B12 ± δB12 cm3· mol-1 -122 ± 15

86

Ref.

______________________________________________

Ar C8H18

71-vig/sem-1

MW = 39.95 MW = 114.23

B12 ± δB12 cm3· mol-1 -87 ± 15

87

Ref.

______________________________________________

71-vig/sem-1

Landolt-Börnstein New Series IV/21B

53

2 Mixtures Containing an Inorganic Compound

Argon Propylbenzene

[7440-37-1] [103-65-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -152 ± 15 71-vig/sem ___________

______________________________________________

Argon 1-Methylethylbenzene

______________________________________________

Argon 1-Ethyl-2-methylbenzene

______________________________________________

Argon 1-Ethyl-3-methylbenzene

______________________________________________

Argon 1,2,3-Trimethylbenzene

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 39.95 MW = 120.19

B12 ± δB12 cm3· mol-1

89

Ref.

MW = 39.95 MW = 120.19

B12 ± δB12 cm3· mol-1

90

Ref.

______________________________________________

MW = 39.95 MW = 120.19

B12 ± δB12 cm3· mol-1

91

Ref.

______________________________________________

Ar C9H12

___________

88

______________________________________________

Ar C9H12

[7440-37-1] [526-73-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -165 ± 15 71-vig/sem

B12 ± δB12 cm3· mol-1

Ar C9H12

[7440-37-1] [620-14-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -154 ± 15 71-vig/sem ___________

T K

___________

MW = 39.95 MW = 120.19

______________________________________________

Ar C9H12

[7440-37-1] [611-14-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -158 ± 15 71-vig/sem ___________

T K

___________

[7440-37-1] [98-82-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -148 ± 15 71-vig/sem ___________

Ar C9H12

MW = 39.95 MW = 120.19

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

92

54

2 Mixtures Containing an Inorganic Compound

Argon 1,2,4-Trimethylbenzene

[7440-37-1] [95-63-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -156 ± 15 71-vig/sem ___________

______________________________________________

Argon 1,3,5-Trimethylbenzene

______________________________________________

Argon Nonane

______________________________________________

Argon Naphthalene

______________________________________________

Argon (2-Methylpropyl)benzene

___________

T K 353.20 ___________

______________________________________________

T K 347.20 ___________

T K

Ref.

MW = 39.95 MW = 120.19

B12 ± δB12 cm3· mol-1

94

Ref.

MW = 39.95 MW = 128.26

B12 ± δB12 cm3· mol-1 -146 ± 15

95

Ref.

______________________________________________

71-vig/sem-1

MW = 39.95 MW = 128.17

B12 ± δB12 cm3· mol-1 -104 ± 6

96

Ref.

______________________________________________

Ar C10H14

___________

93

______________________________________________

Ar C10H8

[7440-37-1] [538-93-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -159 ± 15 71-vig/sem

B12 ± δB12 cm3· mol-1

Ar C9H20

[7440-37-1] [91-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 297.20 -176 ± 7 67-bra/kin 298.20 -178 ± 10 62-kin/rob ___________

T K

___________

MW = 39.95 MW = 120.19

______________________________________________

Ar C9H12

[7440-37-1] [111-84-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -181 ± 15 71-vig/sem-1 ___________

T K

___________

[7440-37-1] [108-67-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -160 ± 15 71-vig/sem ___________

Ar C9H12

62-kin/rob

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

97

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

55

2 Mixtures Containing an Inorganic Compound

Argon (1-Methylpropyl)benzene

[7440-37-1] [135-98-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -160 ± 15 71-vig/sem ___________

______________________________________________

Argon 1-Methyl-2-propylbenzene

______________________________________________

Argon 1-Methyl-3-propylbenzene

______________________________________________

Argon 1-Methyl-4-propylbenzene

______________________________________________

Argon 1-Methyl-2-(1-methylethyl)benzene

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

99

Ref.

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

100

Ref.

______________________________________________

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

101

Ref.

______________________________________________

Ar C10H14

___________

98

______________________________________________

Ar C10H14

[7440-37-1] [527-84-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -168 ± 15 71-vig/sem

B12 ± δB12 cm3· mol-1

Ar C10H14

[7440-37-1] [1074-55-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -169 ± 15 71-vig/sem ___________

T K

___________

MW = 39.95 MW = 134.22

______________________________________________

Ar C10H14

[7440-37-1] [1074-43-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -167 ± 15 71-vig/sem ___________

T K

___________

[7440-37-1] [1074-17-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -171 ± 15 71-vig/sem ___________

Ar C10H14

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

102

56

2 Mixtures Containing an Inorganic Compound

Argon 1,4-Diethylbenzene

[7440-37-1] [105-05-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -168 ± 15 71-vig/sem ___________

______________________________________________

Argon 1-Ethyl-2,3-dimethylbenzene

______________________________________________

Argon 1-Ethyl-2,4-dimethylbenzene

______________________________________________

Argon 1-Ethyl-2,5-dimethylbenzene

______________________________________________

Argon 1-Ethyl-2,6-dimethylbenzene

___________

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

104

Ref.

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

105

Ref.

______________________________________________

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

106

Ref.

______________________________________________

Ar C10H14

___________

103

______________________________________________

Ar C10H14

[7440-37-1] [2870-04-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -167 ± 15 71-vig/sem

B12 ± δB12 cm3· mol-1

Ar C10H14

[7440-37-1] [1758-88-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -174 ± 15 71-vig/sem ___________

T K

___________

MW = 39.95 MW = 134.22

______________________________________________

Ar C10H14

[7440-37-1] [874-41-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -174 ± 15 71-vig/sem ___________

T K

___________

[7440-37-1] [933-98-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -168 ± 15 71-vig/sem ___________

Ar C10H14

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

107

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

57

2 Mixtures Containing an Inorganic Compound

Argon 1-Ethyl-3,4-dimethylbenzene

[7440-37-1] [934-80-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -177 ± 15 71-vig/sem ___________

______________________________________________

Argon 1-Ethyl-3,5-dimethylbenzene

______________________________________________

Argon 1,2,3,4-Tetramethylbenzene

______________________________________________

Argon 1,2,3,5-Tetramethylbenzene

______________________________________________

Argon 1,2,4,5-Tetramethylbenzene

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

109

Ref.

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

110

Ref.

______________________________________________

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

111

Ref.

______________________________________________

Ar C10H14

___________

108

______________________________________________

Ar C10H14

[7440-37-1] [95-93-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -183 ± 15 71-vig/sem

B12 ± δB12 cm3· mol-1

Ar C10H14

[7440-37-1] [527-53-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -183 ± 15 71-vig/sem ___________

T K

___________

MW = 39.95 MW = 134.22

______________________________________________

Ar C10H14

[7440-37-1] [488-23-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -178 ± 15 71-vig/sem ___________

T K

___________

[7440-37-1] [934-74-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -173 ± 15 71-vig/sem ___________

Ar C10H14

MW = 39.95 MW = 134.22

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

112

58

2 Mixtures Containing an Inorganic Compound

Argon Anthracene

[7440-37-1] [120-12-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 348.20 -183 ± 8 67-bra/kin ___________

[7637-07-2] [7727-37-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 303.20 -27.0 ± 20.0 58-bro/raw ___________

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 303.20 0.250 -28 ± 5 58-bro/raw 303.20 0.500 -39 ± 5 58-bro/raw ___________

__________________________________________

Carbon monoxide Carbon dioxide

BF3 N2

Ref.

MW = 67.81 MW = 28.01 B12 ± δB12 cm3· mol-1

T K

114

Ref.

______________________________________________

T x1 K 303.20 0.580 ___________

[630-08-0] [124-38-9]

113

______________________________________________

___________

______________________________________________

MW = 39.95 MW = 178.23

B12 ± δB12 cm3· mol-1

T K

___________

______________________________________________

Boron trifluoride Nitrogen

Ar C14H10

Bm ± δBm cm3· mol-1 -45 ± 5

Ref.

__________________________________________

CO CO2

58-bro/raw

MW = 28.01 MW = 44.01

115

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 2.4271 + 2.7037 ⋅ 104/(T/K) − 1.7561 ⋅ 107/(T/K)2 + 1.6094 ⋅ 109/(T/K)3 T/K 200 250

(B12 ± 2σest)/cm3⋅ mol-1 -105 ± 10 -72 ± 7

T/K 300 350

(B12 ± 2σest)/cm3⋅ mol-1 -48 ± 5 -31 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 223.20 -89.0 ± 1.0 67-bre („) 0.1 273.20 -58.4 ± 1.0 67-bre („) 1.4 303.15 -34.6 ± 4.6 12.0 56-cot/ham (♦) 303.15 -46.9 ± 3.0 -0.3 95-mce/mos (×) 303.16 -47.0 ± 3.0 -0.4 95-mce/mos (×) 313.14 -42.3 ± 3.0 95-mce/mos (×) 0.5 313.14 -42.6 ± 3.0 95-mce/mos (×) 0.2 323.14 -38.9 ± 3.0 95-mce/mos (×) 0.3 323.15 -39.4 ± 0.5 -0.2 87-mal/nat (∆) _________

______________________________________

_____________________________________

T K 323.15 333.15 333.15 333.15 343.15 343.15 363.15 373.15 423.15 _________

T/K 400 450

(B12 ± 2σest)/cm3⋅ mol-1 -19 ± 5 -11 ± 5

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -39.5 ± 3.0 -0.3 -36.6 ± 4.0 -0.6 -36.4 ± 3.0 -0.4 -36.4 ± 3.0 -0.4 -33.9 ± 3.0 -1.0 -33.7 ± 3.0 -0.8 -25.7 ± 6.0 1.8 -24.8 ± 0.3 0.3 -15.4 ± 0.2 0.0 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 95-mce/mos (×) 56-cot/ham (♦) 95-mce/mos (×) 95-mce/mos (×) 95-mce/mos (×) 95-mce/mos (×) 56-cot/ham (♦) 87-mal/nat (∆) 87-mal/nat (∆) cont. Landolt-Börnstein New Series IV/21B

59

2 Mixtures Containing an Inorganic Compound

Carbon monoxide + Carbon dioxide (cont.) 20

(B 12 - B 12calc)/cm3·mol-1

15 10 5 0 -5 -10 200

250

300

350

400

450

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x2 Ref. T Bm ± δBm 3 -1 K cm · mol 323.15 0.000 -3.4 ± 0.1 89-mal/nat 323.15 0.299 -28.4 ± 0.1 89-mal/nat 323.15 0.430 -54.0 ± 0.5 87-mal/nat 323.15 0.798 -80.0 ± 0.0 89-mal/nat 323.15 1.000 -103.9 ± 0.1 89-mal/nat 348.15 0.299 -20.8 ± 0.4 89-mal/nat 348.15 0.798 -65.6 ± 0.4 89-mal/nat 373.15 0.000 -4.9 ± 0.3 89-mal/nat 373.15 0.299 -14.8 ± 0.5 89-mal/nat 373.15 0.430 -35.3 ± 0.3 87-mal/nat ___________

__________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 223.20 0.500 42.8 ± 0.2 67-bre 273.20 0.500 23.7 ± 0.2 67-bre 303.15 0.500 16.4 ± 0.5 95-mce/mos 303.16 0.500 16.2 ± 0.5 95-mce/mos 313.14 0.500 15.6 ± 0.5 95-mce/mos 313.14 0.500 15.3 ± 0.5 95-mce/mos ___________

_______________________________________

T K 373.15 373.15 398.15 398.15 423.15 423.15 423.15 423.15 423.15 ___________

T K 323.14 323.15 333.15 333.15 343.15 343.15 ___________

x2

Bm ± δBm cm3· mol-1 -53.7 ± 0.1 -73.0 ± 0.1 -8.3 ± 0.6 -44.2 ± 0.3 9.9 ± 0.4 -5.3 ± 0.1 -22.8 ± 0.2 -36.5 ± 0.5 -52.0 ± 0.5

Ref.

BE ± δBE cm3· mol-1 13.8 ± 0.5 13.7 ± 0.5 12.7 ± 0.5 12.7 ± 0.5 11.6 ± 0.5 11.8 ± 0.5

Ref.

__________________________________________

0.798 1.000 0.299 0.798 0.000 0.299 0.430 0.798 1.000

x1

89-mal/nat 89-mal/nat 89-mal/nat 89-mal/nat 89-mal/nat 89-mal/nat 87-mal/nat 89-mal/nat 89-mal/nat

________________________________________

0.500 0.500 0.500 0.500 0.500 0.500

95-mce/mos 95-mce/mos 95-mce/mos 95-mce/mos 95-mce/mos 95-mce/mos

cont. Landolt-Börnstein New Series IV/21B

60

2 Mixtures Containing an Inorganic Compound

Carbon monoxide + Carbon dioxide (cont.) Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm K 103· cm6· mol-2 323.15 0.000 2.4 ± 0.1 89-mal/nat 323.15 0.299 7.0 ± 0.1 89-mal/nat 323.15 0.798 3.2 ± 0.1 89-mal/nat 323.15 1.000 5.4 ± 0.1 89-mal/nat 348.15 0.299 6.6 ± 0.7 89-mal/nat 348.15 0.798 2.5 ± 0.5 89-mal/nat 373.15 0.000 2.5 ± 0.3 89-mal/nat 373.15 0.299 5.8 ± 0.6 89-mal/nat ___________

___________________________________________________________

Carbon monoxide Hydrogen

T K 373.15 373.15 398.15 398.15 423.15 423.15 423.15 423.15 ___________

[630-08-0] [1333-74-0]

x2

Cm ± δCm 103· cm6· mol-2 2.4 ± 0.1 3.8 ± 0.1 5.5 ± 0.9 2.5 ± 0.3 3.7 ± 0.4 6.1 ± 1.0 2.6 ± 0.6 3.8 ± 0.5

Ref.

___________________________________________________________

0.798 1.000 0.299 0.798 0.000 0.299 0.798 1.000

CO H2

89-mal/nat 89-mal/nat 89-mal/nat 89-mal/nat 89-mal/nat 89-mal/nat 89-mal/nat 89-mal/nat

MW = 28.01 MW = 2.02

116

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 4.4409 ⋅ 10 − 9.8417 ⋅ 103/(T/K) + 1.7911 ⋅ 105/(T/K)2 − 7.7626 ⋅ 106/(T/K)3 T/K 35 50

(B12 ± 2σest)/cm3· mol-1 -271.6 ± 5 -142.9 ± 5

T/K 100 150

(B12 ± 2σest)/cm3· mol-1 -43.9 ± 5 -15.5 ± 5

Table 2. Experimental B12 values with uncertainty. Bexp - Bcalc Ref. (Symbol T Bexp ± δB 3 -1 K cm · mol cm3· mol-1 in Fig. 1) 36.00 -256.0 ± 3.0 1.1 56-reu/bee (×) 40.00 -213.0 ± 2.0 -2.0 56-reu/bee (×) 44.00 -179.0 ± 2.0 -1.1 56-reu/bee (×) 48.00 -153.0 ± 2.0 0.1 56-reu/bee (×) 52.00 -133.0 ± 1.0 0.8 56-reu/bee (×) 56.00 -117.0 ± 1.0 1.4 56-reu/bee (×) _________

______________________________________

_____________________________________

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm K cm3· mol-1 273.15 0.334 10.7 ± 0.5 32-tow/bha 273.15 0.498 5.0 ± 0.5 32-tow/bha 273.15 0.667 -2.1 ± 0.5 32-tow/bha 298.15 0.337 10.4 ± 1.0 29-sco 298.15 0.483 7.4 ± 1.0 29-sco ___________

__________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 273.20 0.500 10.2 ± 0.2 67-bre ___________

________________________________________

T K 60.00 77.30 143.15 173.15 213.15 273.20 _________

T K 298.15 298.15 298.15 298.15 ___________

T K

___________

T/K 200 300

Bexp ± δB cm3· mol-1 -108.0 ± 1.0 -73.0 ± 6.0 -14.0 ± 4.5 -7.0 ± 4.5 1.6 ± 3.5 10.1 ± 1.0 ______________________________________

x1

(B12 ± 2σest)/cm3· mol-1 -1.3 ± 5 13.3 ± 5

Bexp - Bcalc cm3· mol-1 -2.2 -3.3 4.2 1.0 0.2 -0.3 _____________________________________

Ref. (Symbol in Fig. 1) 56-reu/bee (×) 91-sch/eli (▲) 91-sch/eli (▲) 91-sch/eli (▲) 91-sch/eli (▲) 67-bre (…)

Bm ± δBm cm3· mol-1 3.4 ± 1.0 11.1 ± 0.5 7.7 ± 0.5 3.3 ± 0.0

Ref.

BE ± δBE cm3· mol-1

Ref.

_________________________________________

0.669 0.334 0.498 0.667

x1

29-sco 32-tow/bha 32-tow/bha 32-tow/bha

________________________________________

cont. Landolt-Börnstein New Series IV/21B

61

2 Mixtures Containing an Inorganic Compound

Carbon monoxide + Hydrogen (cont.)

(B 12 - B 12 calc)/cm 3·mol -1

10

5

0

-5

-10 0

50

100

150

200

250

300

T/K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Carbon monoxide Water

[630-08-0] [7732-18-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 363.50 -27 ± 7 84-smi/wor 365.50 -25 ± 7 88-wor/lan 375.20 -26 ± 9 84-smi/wor 375.20 -23 ± 9 88-wor/lan ___________

______________________________________________

Carbon monoxide Helium

T K 393.20 393.20 403.20 403.20 ___________

[630-08-0] [7440-59-7]

CO H2O

MW = 28.01 MW = 18.01

B12 ± δB12 cm3· mol-1 -20 ± 7 -16 ± 7 -25 ± 8 -20 ± 8

117

Ref.

______________________________________________

CO He

84-smi/wor 88-wor/lan 84-smi/wor 88-wor/lan

MW = 28.01 MW = 4.00

118

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.4426 ⋅ 10 − 5.6592 ⋅ 103/(T/K) + 7.7493 ⋅ 105/(T/K)2 − 4.7919 ⋅ 107/(T/K)3 T/K 80 100

(B12 ± 2σest)/cm3· mol-1 -8.8 ± 8 7.4 ± 6

T/K 150 200

(B12 ± 2σest)/cm3· mol-1 16.9 ± 5 19.5 ± 5

T/K 250 300

(B12 ± 2σest)/cm3· mol-1 21.1 ± 5 22.4 ± 5

cont. Landolt-Börnstein New Series IV/21B

62

2 Mixtures Containing an Inorganic Compound

Carbon monoxide + Helium (cont.) 15

5

3

(B 12 - B 12calc)/cm ·mol

-1

10

0

-5

-10

-15 50

10 0

15 0

20 0

25 0

30 0

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. Bexp - Bcalc Ref. (Symbol T Bexp ± δB K cm3· mol-1 cm3· mol-1 in Fig. 1) 77.30 -8.9 ± 8.0 3.9 86-eli/hoa (×) 90.10 -2.1 ± 7.0 -3.7 86-eli/hoa (×) 123.20 14.3 ± 1.0 0.4 67-bre (…) 143.00 11.5 ± 6.0 -4.9 86-eli/hoa (×) 148.20 16.6 ± 1.0 -0.2 67-bre (…) 173.00 15.6 ± 5.0 -2.8 86-eli/hoa (×) 173.20 18.4 ± 1.0 0.0 67-bre (…)

T K 213.00 223.20 242.00 273.00 273.20 296.20

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 123.20 0.500 70.0 ± 0.2 67-bre 148.20 0.500 53.0 ± 0.2 67-bre 173.20 0.500 42.4 ± 0.2 67-bre

T x1 K 223.20 0.500 273.20 0.500

_________

___________

______________________________________

_____________________________________

________________________________________

_________

___________

Bexp ± δB cm3· mol-1 20.5 ± 5.0 20.6 ± 1.0 22.4 ± 5.0 24.5 ± 5.0 21.5 ± 1.0 24.6 ± 4.0 ______________________________________

Bexp - Bcalc cm3· mol-1 0.5 0.3 1.5 2.8 -0.2 2.3 _____________________________________

BE ± δBE cm3· mol-1 29.9 ± 0.2 22.8 ± 0.2

Ref. (Symbol in Fig. 1) 86-eli/hoa (×) 67-bre (…) 86-eli/hoa (×) 86-eli/hoa (×) 67-bre (…) 86-eli/hoa (×)

Ref.

________________________________________

67-bre 67-bre

Landolt-Börnstein New Series IV/21B

63

2 Mixtures Containing an Inorganic Compound

Carbon monoxide Krypton

[630-08-0] [7439-90-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 123.20 -183.1 ± 2.0 67-bre 148.20 -130.2 ± 2.0 67-bre 173.20 -96.3 ± 1.0 67-bre ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 123.20 0.500 22.7 ± 0.2 67-bre 148.20 0.500 14.2 ± 0.2 67-bre 173.20 0.500 10.4 ± 0.2 67-bre ___________

________________________________________

Carbon monoxide Nitrogen

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 273.20 0.500 0.4 ± 0.2 67-bre 303.15 0.500 -0.9 ± 0.2 95-mce/buc 1 303.16 0.500 -0.6 ± 0.2 95-mce/buc 1 318.14 0.500 -0.9 ± 0.2 95-mce/buc 1 ___________

________________________________________

MW = 28.01 MW = 83.80

B12 ± δB12 cm3· mol-1 -56.9 ± 1.0 -34.7 ± 1.0

T x1 K 223.20 0.500 273.20 0.500

CO N2

T K 333.15 333.15 348.15 348.17

BE ± δBE cm3· mol-1 5.8 ± 0.2 3.9 ± 0.2

x1

BE ± δBE cm3· mol-1 -0.8 ± 0.2 -0.8 ± 0.2 -1.0 ± 0.2 -1.0 ± 0.2

0.500 0.500 0.500 0.500

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 1.6 ± 0.2 88-jae/aud 293.15 1.5 ± 0.2 88-jae/aud

T K 313.15 333.15

C122 ± δC122 103· cm6· mol-2 1.5 ± 0.2 1.4 ± 0.2

___________

Landolt-Börnstein New Series IV/21B

__________________________________________________________

___________

67-bre 67-bre

120

Ref. 95-mce/buc 88-jae/aud 95-mce/buc 95-mce/buc 95-mce/buc 95-mce/buc

1 1 1 1 1

Ref.

________________________________________

C112 ± δC112 103· cm6· mol-2 1.6 ± 0.2 1.5 ± 0.2

___________

Ref.

______________________________________________

T K 313.15 333.15

__________________________________________________________

67-bre 67-bre

MW = 28.01 MW = 28.01

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 K 103· cm6· mol-2 273.15 1.8 ± 0.2 88-jae/aud 293.15 1.7 ± 0.2 88-jae/aud ___________

Ref.

________________________________________

B12 ± δB12 cm3· mol-1 -3.8 ± 1.0 2.9 ± 0.1 -1.2 ± 1.0 -1.2 ± 1.0 0.7 ± 1.0 0.7 ± 1.0

T K 318.15 333.15 333.15 333.15 348.15 348.17 ___________

___________

119

______________________________________________

___________

[630-08-0] [7727-37-9]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 273.20 -12.0 ± 1.0 67-bre 273.15 -12.4 ± 0.5 88-jae/aud 293.15 -7.0 ± 0.3 88-jae/aud 303.15 -6.6 ± 1.0 95-mce/buc 303.16 -6.3 ± 1.0 95-mce/buc 1 313.15 -1.8 ± 0.1 88-jae/aud 318.14 -3.7 ± 1.0 95-mce/buc 1 ___________

T K 223.20 273.20 ___________

CO Kr

95-mce/buc 95-mce/buc 95-mce/buc 95-mce/buc

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

1 1 1 1

64

2 Mixtures Containing an Inorganic Compound

Carbon monoxide Neon

[630-08-0] [7440-01-9]

CO Ne

MW = 28.01 MW = 20.18

121

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.3843 ⋅ 10 - 6.4861 ⋅ 103/(T/K) + 2.5955 ⋅ 105/(T/K)2 − 2.4332 ⋅ 107/(T/K)3 T/K 125 200

(B12 ± 2σest)/cm3· mol-1 -13.9 ± 4 4.9 ± 3

T/K 300 400

(B12 ± 2σest)/cm3· mol-1 14.2 ± 3 18.9 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 123.20 -14.71 ± 1.0 67-bre (×) 0.0 148.20 -5.64 ± 1.0 67-bre (×) -0.1 173.20 0.42 ± 1.0 67-bre (×) 0.1 223.20 7.83 ± 1.0 67-bre (×) 0.0 _________

______________________________________

_____________________________________

T/K 500

(B12 ± 2σest)/cm3· mol-1 21.7 ± 3

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 273.20 12.23 ± 1.0 -0.2 296.15 14.1 ± 1.5 0.1 353.15 17.2 ± 2.0 0.2 463.15 20.6 ± 3.0 -0.2 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (×) 96-vat/sch (…) 96-vat/sch (…) 96-vat/sch (…)

4

(B 12 - B 12calc)/cm3·mol-1

3 2 1 0 -1 -2 -3 -4 100

150

200

250

300

350

400

450

500

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 123.20 0.500 46.66 ± 0.2 67-bre 148.20 0.500 34.41 ± 0.2 67-bre 173.20 0.500 27.14 ± 0.2 67-bre ___________

________________________________________

T x1 K 223.20 0.500 273.20 0.500 ___________

BE ± δBE cm3· mol-1 18.52 ± 0.2 13.86 ± 0.2

Ref.

_______________________________________

67-bre 67-bre

Landolt-Börnstein New Series IV/21B

65

2 Mixtures Containing an Inorganic Compound

Carbon monoxide Xenon

[630-08-0] [7440-63-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 173.20 -138.7 ± 3.0 67-bre ___________

T K 273.20 ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 173.20 0.500 75.4 ± 0.2 67-bre ___________

________________________________________

Carbon monoxide Tetrafluoromethane

T K 273.20 ___________

[630-08-0] [75-73-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -34.8 ± 1.5 86-dun/big 300.00 -31.6 ± 1.4 86-dun/big ___________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 290.00 0.500 18.0 ± 0.4 86-dun/big 300.00 0.500 16.3 ± 0.4 86-dun/big ___________

________________________________________

Carbon monoxide Methane

MW = 28.01 MW = 131.29

B12 ± δB12 cm3· mol-1 -52.5 ± 2.0

T K 320.00

T K 320.00

x1

Ref. 67-bre

BE ± δBE cm3· mol-1 31.7 ± 0.2

Ref.

________________________________________

0.500

67-bre

MW = 28.01 MW = 88.00

B12 ± δB12 cm3· mol-1 -23.4 ± 1.2

123

Ref.

_____________________________________________

x1

___________

[630-08-0] [74-82-8]

122

______________________________________________

CO CF4

___________

______________________________________________

CO Xe

86-dun/big

BE ± δBE cm3· mol-1 15.3 ± 0.4

Ref.

________________________________________

0.500

CO CH4

86-dun/big

MW = 28.01 MW = 16.04

124

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.2044 ⋅ 103 − 1.9304 ⋅ 106/(T/K) + 5.6339 ⋅ 108/(T/K)2 − 5.5377 ⋅ 1010/(T/K)3 T/K 270

(B12 ± 2σest)/cm3⋅ mol-1 -30.4 ± 3

T/K 300

(B12 ± 2σest)/cm3⋅ mol-1 -21.4 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -30.7 ± 1.0 -1.7 88-jae/aud (∆) 273.15 -31.2 ± 1.0 -2.2 88-mic/sch (×) 273.15 -30.7 ± 1.0 -1.7 88-mic/sch (×) 273.20 -29.9 ± 1.0 -1.0 67-bre („) 288.70 -7.3 ± 5.0 16.7 61-mas/eak 1 293.15 -24.9 ± 1.0 -2.0 88-jae/aud (∆) 1 Not included in Figure 1. _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T K 293.15 293.15 313.15 313.15 313.15 333.15

_________

T/K 350

(B12 ± 2σest)/cm3⋅ mol-1 -3.5 ± 3

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -26.3 ± 1.0 -3.4 -24.9 ± 1.0 -2.0 -18.7 ± 0.5 -0.5 -20.0 ± 1.0 -1.8 -18.7 ± 1.0 -0.5 -12.0 ± 0.5 -0.5 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-mic/sch (×) 88-mic/sch (×) 88-jae/aud (∆) 88-mic/sch (×) 88-mic/sch (×) 88-jae/aud (∆) cont.

66

2 Mixtures Containing an Inorganic Compound

Carbon monoxide + Methane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 273.20 0.500 3.8 ± 0.2 67-bre ___________

________________________________________

T K

___________

x1

BE ± δBE cm3· mol-1

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 273.15 2.1 ± 0.4 88-jae/aud 293.15 2.0 ± 0.4 88-jae/aud

T K 313.15 333.15

C112 ± δC112 103· cm6· mol-2 1.9 ± 0.4 1.8 ± 0.4

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 273.15 2.4 ± 1.0 88-mic/sch 273.15 -17.8 ± 10.0 88-mic/sch 273.15 2.4 ± 0.4 88-jae/aud 293.15 2.2 ± 1.0 88-mic/sch 293.15 -16.5 ± 10.0 88-mic/sch

T K 293.15 313.15 313.15 313.15 333.15

C122 ± δC122 103· cm6· mol-2 2.2 ± 0.4 -15.5 ± 10.0 2.1 ± 1.0 2.1 ± 0.4 2.0 ± 0.4

___________

__________________________________________________________

___________

__________________________________________________________

Ref.

________________________________________

___________

Ref.

__________________________________________________________

___________

88-jae/aud 88-jae/aud

Ref.

__________________________________________________________

88-jae/aud 88-mic/sch 88-mic/sch 88-jae/aud 88-jae/aud

4

(B 12 - B 12calc)/cm3·mol-1

3 2 1 0 -1 -2 -3 -4 -5 250

260

270

280

290

300

310

320

330

340

350

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

67

2 Mixtures Containing an Inorganic Compound

Carbon monoxide Ethene

[630-08-0] [74-85-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 288.70 -32.2 ± 5.0 61-mas/eak 300.04 -44.8 ± 4.0 95-mce/buc-1 300.06 -45.2 ± 4.0 95-mce/buc-1 313.15 -40.2 ± 4.0 95-mce/buc-1 ___________

______________________________________________

Carbon monoxide Ethane

T K 313.16 328.16 328.16 343.15 ___________

[630-08-0] [74-84-0]

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 293.15 0.366 -56.9 ± 1.6 94-mce/aba 303.15 0.417 -60.6 ± 1.4 94-mce/aba 313.15 0.355 -45.7 ± 1.3 94-mce/aba ___________

__________________________________________

Carbon monoxide Propene

T K 323.15 333.15 343.15

[630-08-0] [115-07-1]

Carbon monoxide Propane

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

x2 0.356 0.482 0.468

Bm ± δBm cm3· mol-1 -42.4 ± 1.7 -55.8 ± 1.7 -48.9 ± 0.4

126

Ref. 94-mce/aba 94-mce/aba 94-mce/aba

MW = 28.01 MW = 42.08

127

Ref.

______________________________________________

CO C3H8

T K 323.15 333.18 333.20 343.19 343.20

95-mce/buc-1 95-mce/buc-1 95-mce/buc-1 95-mce/buc-1

MW = 28.01 MW = 30.07

B12 ± δB12 cm3· mol-1

T K

___________

Ref.

__________________________________________

CO C3H6

[630-08-0] [74-98-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 302.23 -75.6 ± 3.0 95-mce/mos 302.30 -77.4 ± 3.0 95-mce/mos 303.15 -75.3 ± 3.0 95-mce/mos 312.16 -71.2 ± 2.5 95-mce/mos 312.84 -71.2 ± 2.5 95-mce/mos 323.01 -64.8 ± 2.5 95-mce/mos

B12 ± δB12 cm3· mol-1 -39.5 ± 4.0 -34.1 ± 4.0 -33.6 ± 4.0 -28.8 ± 4.0

125

______________________________________________

___________

______________________________________________

MW = 28.01 MW = 28.05

CO C2H6

___________

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 288.70 -62.9 ± 5 61-mas/eak ___________

CO C2H4

MW = 28.01 MW = 44.10

B12 ± δB12 cm3· mol-1 -65.3 ± 2.5 -60.2 ± 2.5 -59.1 ± 2.5 -54.8 ± 2.5 -55.6 ± 2.5

128

Ref.

______________________________________________

95-mce/mos 95-mce/mos 95-mce/mos 95-mce/mos 95-mce/mos

68

2 Mixtures Containing an Inorganic Compound

Carbon monoxide Butane

[630-08-0] [106-97-8]

CO C4H10

MW = 28.01 MW = 58.12

Table 2. Experimental B12 values with uncertainty. T B12 ± δB12 Ref. K cm3· mol-1 298.08 -106.0 ± 9.0 94-mce 312.94 -93.0 ± 9.0 94-mce 327.60 -86.0 ± 9.0 94-mce

T K 348.17 348.17

B12 ± δB12 cm3· mol-1 -67.3 ± 3.0 -68.2 ± 3.0

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 298.08 0.500 255.4 ± 4.0 94-mce 312.94 0.500 228.5 ± 4.0 94-mce

T K 327.60

x1

___________

______________________________________________

___________

________________________________________

Carbon monoxide 2-Methylpropane

___________

___________

[630-08-0] [75-28-5] T K 348.16 348.17

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 298.08 0.500 239.7 ± 2.0 94-mce 312.94 0.500 211.0 ± 2.0 94-mce

T K 327.60

___________

______________________________________________

___________

________________________________________

Carbon monoxide Pentane

______________________________________________

0.500

T K 328.15 328.15 343.15 343.15

BE ± δBE cm3· mol-1 202.9 ± 4.0

Ref. 94-mce

MW = 28.01 MW = 58.12

B12 ± δB12 cm3· mol-1 -77.5 ± 6.0 -78.3 ± 6.0

130

Ref.

______________________________________________

x1

95-mce/mos-1 95-mce/mos-1

BE ± δBE cm3· mol-1 189.1 ± 2.0

Ref.

________________________________________

0.500

CO C5H12

___________

95-mce/mos-1 95-mce/mos-1

________________________________________

___________

[630-08-0] [109-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 299.50 -123.6 ± 10.0 95-mce/buc 299.50 -122.3 ± 10.0 95-mce/buc 313.15 -107.6 ± 10.0 95-mce/buc 313.15 -108.4 ± 10.0 95-mce/buc ___________

___________

Ref.

______________________________________________

CO C4H10

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.08 -106 ± 9 94-mce 312.94 -93 ± 9 94-mce 327.60 -86 ± 9 94-mce

129

MW = 28.01 MW = 72.15

B12 ± δB12 cm3· mol-1 -92.0 ± 10.0 -90.6 ± 10.0 -77.0 ± 10.0 -75.8 ± 10.0

94-mce

131

Ref.

______________________________________________

95-mce/buc 95-mce/buc 95-mce/buc 95-mce/buc

cont. Landolt-Börnstein New Series IV/21B

69

2 Mixtures Containing an Inorganic Compound

Carbon monoxide + Pentane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 299.50 0.500 473.0 ± 2.0 95-mce/buc 299.50 0.500 474.3 ± 2.0 95-mce/buc 313.15 0.500 424.1 ± 2.0 95-mce/buc 313.15 0.500 423.3 ± 1.7 95-mce/buc ___________

________________________________________

Carbon monoxide Benzene

T K 328.15 328.15 343.15 343.15 ___________

[630-08-0] [71-43-2]

x1

BE ± δBE cm3· mol-1 379.3 ± 1.7 380.7 ± 1.5 339.5 ± 1.5 340.7 ± 1.5

Ref.

________________________________________

0.500 0.500 0.500 0.500

CO C6H6

MW = 28.01 MW = 78.11

95-mce/buc 95-mce/buc 95-mce/buc 95-mce/buc

132

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3·mol-1 = 2.4487 · 102 - 2.4165 · 105/(T/K) + 7.1240 · 107/(T/K)2 - 9.9105 · 109/(T/K)3 T/K 325 350

(B12 ± 2σest)/cm3· mol-1 -112.9 ± 5 -95.1 ± 5

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -68.8 ± 5 -49.1 ± 5

T/K 500 600

(B12 ± 2σest)/cm3· mol-1 -32.7 ± 3 -5.9 ± 2

(B 12 - B 12calc)/cm3·mol-1

10 5 0 -5 -10 -15 -20 300

350

400

450

500

550

600

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont.

Landolt-Börnstein New Series IV/21B

70

2 Mixtures Containing an Inorganic Compound

Carbon monoxide + Benzene (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 323.15 -114.4 ± 1.0 64-con (♦) 0.0 323.15 -114.4 ± 1.0 64-con (♦) 0.0 323.15 -113.0 ± 8.0 68-eve/gai (×) 1.4 323.15 -122.0 ± 8.0 -7.6 68-eve/gai (×) 373.15 -82.6 ± 1.0 -0.8 64-con (♦) 373.15 -81.0 ± 1.0 64-con (♦) 0.8 _________

______________________________________

_____________________________________

Carbon monoxide Octane

T K 493.20 513.20 533.20 553.20 573.20 _________

[630-08-0] [111-65-9]

Bexp ± δB cm3· mol-1 -35.0 ± 1.0 -29.0 ± 1.0 -23.0 ± 1.0 -17.0 ± 1.0 -13.0 ± 1.0

Bexp - Bcalc cm3· mol-1 -0.2 -0.2 0.1 0.7 -0.5

______________________________________

_____________________________________

CO C8H18

Ref. (Symbol in Fig. 1) 64-con (♦) 64-con (♦) 64-con (♦) 64-con (♦) 64-con (♦)

MW = 28.01 MW = 114.23

133

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.4481 ⋅ 102 - 1.6544 ⋅ 105/(T/K) + 1.3200 ⋅ 107/(T/K)2 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -160.0 ± 10 -120.1 ± 8

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -86.3 ± 2 -57.6 ± 2

T/K 500 600

(B12 ± 2σest)/cm3· mol-1 -33.3 ± 2 5.7 ± 2

15

(B 12 - B 12calc)/cm3·mol-1

10 5 0 -5 -10 -15 300

350

400

450

500

550

600

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

71

2 Mixtures Containing an Inorganic Compound

Carbon monoxide + Octane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc T Bexp ± δB Bexp - Bcalc Ref. (Symbol 3 -1 3 -1 K cm · mol cm · mol in Fig. 1) K cm3· mol-1 cm3· mol-1 313.15 -153.0 ± 8 68-eve/gai (♦) 533.20 -17.0 ± 1 -4.1 2.0 338.20 -123.0 ± 8 68-eve/gai (♦) 553.20 -11.0 ± 1 6.0 0.1 373.15 -105.8 ± 1 64-con („) 573.20 -6.0 ± 1 -2.0 -2.4 373.15 -103.3 ± 1 64-con („) 0.5 _________

______________________________________

_____________________________________

Carbonyl sulfide Helium

_________

[463-58-1] [7440-59-7]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 290.0 30.1 ± 2.5 92-bel/big 300.0 32.7 ± 2.5 92-bel/big ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.0 0.500 159.3 ± 5.0 92-bel/big 300.0 0.500 151.9 ± 5.0 92-bel/big ___________

________________________________________

Carbonyl sulfide Krypton

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.0 0.500 69.6 ± 1.0 92-bel/big 300.0 0.500 64.5 ± 1.0 92-bel/big ___________

Landolt-Börnstein New Series IV/21B

________________________________________

COS He

T K 310.0 ___________

MW = 60.08 MW = 4.00

BE ± δBE cm3· mol-1 0.500 145.4 ± 5.0 x1

134

Ref. 92-bel/big

Ref.

________________________________________

COS Kr

92-bel/big

MW = 60.08 MW = 83.80

B12 ± δB12 cm3· mol-1 -71.6 ± 7.5

T K 310.0

T K 310.0

Ref. (Symbol in Fig. 1) 64-con („) 64-con („) 64-con(„)

______________________________________________

___________

___________

_____________________________________

B12 ± δB12 cm3· mol-1 37.9 ± 2.8

T K 310.0 ___________

[463-58-1] [7439-90-9]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 290.0 -93.2 ± 8.0 92-bel/big 300.0 -85.5 ± 8.0 92-bel/big ___________

______________________________________

135

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1 65.5 ± 1.0

92-bel/big

Ref.

_______________________________________

0.500

92-bel/big

72

2 Mixtures Containing an Inorganic Compound

Carbonyl sulfide Neon

[463-58-1] [7440-01-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.0 8.9 ± 2.0 92-bel/big 300.0 16.7 ± 3.0 92-bel/big

T K 310.0

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 290.0 0.500 138.5 ± 7.0 92-bel/big 300.0 0.500 136.0 ± 7.0 92-bel/big

T K 310.0

___________

______________________________________________

___________

________________________________________

Carbonyl sulfide Xenon

___________

______________________________________________

Carbon dioxide Sulfur hexafluoride

______________________________________________

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 322.85 0.105 -205.2 ± 0.30 97-hou/sta 322.85 0.208 -198.1 ± 1.80 97-hou/sta 322.85 0.301 -179.9 ± 2.50 97-hou/sta ___________

T K 310.0

___________

[124-38-9] [2551-62-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -158.0 ± 2.0 82-mar/tre-1 290.00 -158.5 ± 2.0 82-mar/tre-1 290.00 -158.6 ± 2.0 82-mar/tre-1 300.00 -147.1 ± 2.0 82-mar/tre-1 300.00 -146.8 ± 2.0 82-mar/tre-1 ___________

___________

__________________________________________

T K 320.00 320.00 320.00 322.85 ___________

136

Ref.

v ______________________________________________

x1

92-bel/big

BE ± δBE cm3· mol-1 127.3 ± 7.0

Ref.

________________________________________

0.500

COS Xe

92-bel/big

MW = 60.08 MW = 131.29

B12 ± δB12 cm3· mol-1 -143.6 ± 14.0

137

Ref.

______________________________________________

CO2 F6S

92-bel/big

MW = 44.01 MW = 146.06

B12 ± δB12 cm3· mol-1 -125.3 ± 2.0 -125.1 ± 2.0 -125.1 ± 2.0 -130.0 ± 30.0

T x1 K 322.85 0.798 322.85 0.902 ___________

MW = 60.08 MW = 20.18

B12 ± δB12 cm3· mol-1 19.7 ± 3.2

___________

[463-58-1] [7440-63-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.0 -172.2 ± 15.0 92-bel/big 300.0 -161.6 ± 15.0 92-bel/big

COS Ne

138

Ref.

______________________________________________

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1 97-hou/sta

Bm ± δBm cm3· mol-1 -115.3 ± 0.40 -108.9 ± 0.10

Ref.

__________________________________________

97-hou/sta 97-hou/sta

cont. Landolt-Börnstein New Series IV/21B

73

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Sulfur hexafluoride (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 57.0 ± 0.2 82-mar/tre-1 290.00 0.500 57.1 ± 0.2 82-mar/tre-1 290.00 0.500 57.1 ± 0.2 82-mar/tre-1 300.00 0.500 51.9 ± 0.2 82-mar/tre-1 ___________

_______________________________________

Carbon dioxide Hydrogen

T K 300.00 320.00 320.00 320.00 ___________

[124-38-9] [1333-74-0]

x1

BE ± δBE cm3· mol-1 52.2 ± 0.2 45.6 ± 0.2 45.8 ± 0.2 45.0 ± 0.2

Ref.

________________________________________

0.500 0.500 0.500 0.500

CO2 H2

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

MW = 44.01 MW = 2.02

139

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.2598 ⋅ 102 − 1.7768 ⋅ 105/(T/K) + 4.7952 ⋅ 107/(T/K)2 − 4.5198 ⋅ 109/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -13.3 ± 5 -6.8 ± 5

T/K 225 250

T/K 275 300

(B12 ± 2σest)/cm3· mol-1 -3.4 ± 4 -0.9 ± 4

T/K 325 375

260

280

340

(B12 ± 2σest)/cm3· mol-1 1.6 ± 4 7.4 ± 4

8 (B 12 - B 12calc)/cm 3·mol -1

6 4 2 0 -2 -4 -6 -8 -10 200

220

240

300

320

360

380

400

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

74

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Hydrogen (cont.) Table 2. Experimental B12 values with uncertainty. Bexp - Bcalc T Bexp ± δB 3 -1 K cm · mol cm3· mol-1 223.20 -9.0 ± 1.0 5.0 248.20 -3.8 ± 1.0 3.3 273.15 -5.2 ± 1.0 -1.6 273.20 -4.3 ± 1.0 -0.7 293.15 -2.1 ± 1.0 -0.6 298.15 -0.4 ± 0.1 0.7 298.20 -32.9 ± 3.0 -31.8 303.15 -1.0 ± 3.8 -0.4 303.15 -0.5 ± 0.1 0.1 1 Not included in Figure 1. _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (▲) 67-bre (▲) 88-jae/aud („) 67-bre (▲) 88-jae/aud („) 90-vil/gai (∆) 42-edw/ros 1 56-cot/ham (†) 93-aba/mce (z)

Table 3. Experimental Bm values with uncertainty. T x1 Ref. Bm ± δBm K cm3· mol-1 303.15 0.500 -26.9 ± 1.9 90-mal/vis 303.15 0.509 -27.6 ± 1.3 93-aba/mce 313.15 0.567 -32.8 ± 0.9 93-aba/mce 323.15 0.000 15.1 ± 0.0 90-mal/vis 323.15 0.137 13.1 ± 0.1 90-mal/vis 323.15 0.618 -36.8 ± 1.3 93-aba/mce 323.15 0.766 -54.8 ± 0.0 90-mal/vis 323.15 1.000 -103.9 ± 0.0 90-mal/vis 333.15 0.500 -20.6 ± 2.2 90-mal/vis 333.15 0.601 -30.8 ± 0.3 93-aba/mce ___________

__________________________________________

T K 313.15 313.15 323.15 333.15 333.15 333.15 343.15 363.15 _________

T K 343.15 363.15 373.15 373.15 373.15 373.15 423.15 423.15 423.15 423.15

T K 273.20

Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 303.15 0.5093 1.5 ± 0.2 93-aba/mce 313.15 0.5672 1.7 ± 0.2 93-aba/mce 323.15 0.0000 0.6 ± 0.0 90-mal/vis 323.15 0.1367 0.7 ± 0.2 90-mal/vis 323.15 0.7659 0.3 ± 0.4 90-mal/vis 323.15 1.0000 5.4 ± 0.0 90-mal/vis 323.15 0.6181 2.0 ± 0.2 93-aba/mce 333.15 0.6005 1.7 ± 0.1 93-aba/mce 343.15 0.6446 2.1 ± 0.2 93-aba/mce

T K 373.15 373.15 373.15 373.15 423.15 423.15 423.15 423.15

___________

________________________________________

___________________________________________________________

x1

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 223.20 0.500 101.5 ± 0.2 67-bre 248.20 0.500 78.7 ± 0.2 67-bre ___________

Bexp ± δB cm3· mol-1 0.7 ± 1.0 -0.1 ± 0.1 0.8 ± 0.1 0.4 ± 4.4 3.2 ± 1.0 3.3 ± 0.1 3.5 ± 0.1 0.0 ± 3.2

___________

___________

Bexp - Bcalc cm3· mol-1 0.3 -0.5 -0.6 -2.1 0.7 0.8 -0.1 -5.9

______________________________________

_____________________________________

Bm ± δBm cm3· mol-1 -34.3 ± 0.9 -16.4 ± 1.6 15.2 ± 0.2 14.6 ± 0.1 -36.1 ± 0.1 -73.0 ± 0.0 15.6 ± 0.6 16.1 ± 0.0 -22.3 ± 0.0 -52.0 ± 0.3

Ref. (Symbol in Fig. 1) 88-jae/aud („) 93-aba/mce (z) 93-aba/mce (z) 56-cot/ham (†) 88-jae/aud („) 93-aba/mce (z) 93-aba/mce (z) 56-cot/ham (†)

Ref.

__________________________________________

0.645 0.500 0.000 0.137 0.766 1.000 0.000 0.137 0.766 1.000

x1

93-aba/mce 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis

BE ± δBE cm3· mol-1 63.8 ± 0.2

Ref.

Cm ± δCm 10 · cm6· mol-2 1.3 ± 0.2 1.6 ± 0.2 2.6 ± 0.1 3.8 ± 0.5 3.1 ± 0.8 2.1 ± 0.3 2.1 ± 0.5 3.8 ± 0.3

Ref.

_______________________________________

0.500

x1

67-bre

___________________________________________________________

3

0.0000 0.1367 0.7659 1.0000 0.0000 0.1367 0.7659 1.0000

90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis

cont. Landolt-Börnstein New Series IV/21B

75

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Hydrogen (cont.) Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 303.15 1.8 ± 0.2 93-aba/mce 313.15 1.7 ± 0.2 93-aba/mce 323.15 1.8 ± 0.2 93-aba/mce

T K 333.15 343.15

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 303.15 0.3 ± 0.1 93-aba/mce 313.15 0.2 ± 0.1 93-aba/mce 323.15 0.4 ± 0.1 93-aba/mce

T K 333.15 343.15

___________

__________________________________________________________

___________

__________________________________________________________

Carbon dioxide Water

___________

___________

[124-38-9] [7732-18-5]

C112 ± δC112 103· cm6· mol-2 1.6 ± 0.2 1.9 ± 0.2

Ref.

__________________________________________________________

C122 ± δC122 103· cm6· mol-2 0.2 ± 0.1 0.6 ± 0.1

93-aba/mce 93-aba/mce

Ref.

__________________________________________________________

CO2 H2O

93-aba/mce 93-aba/mce

MW = 44.01 MW = 18.02

140

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3·mol-1 = − 1.0744 · 102 + 1.1123 · 105/(T/K) − 4.0394 · 107/(T/K)2 (B12 ± 2σest)/cm3· mol-1 -185.5 ± 20 -119.4 ± 20

T/K 300 350

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -81.8 ± 10 -59.7 ± 10

T/K 500

(B12 ± 2σest)/cm3· mol-1 -46.5 ± 8

50 (B 12 - B 12 calc)/cm 3·mol -1

40 30 20 10 0 -10 -20 -30 -40 275

300

325

350

375

400

425

450

475

500

T/K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) cont. Landolt-Börnstein New Series IV/21B

76

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Water (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.00 -202.0 ± 8.7 -12.9 80-wor/col (z) 298.00 -206.0 ± 16.0 -16.9 84-smi/wor (×) 298.15 -214.0 ± 6.0 -25.2 71-coa/kin (Δ) 323.00 -153.0 ± 7.3 -2.7 80-wor/col (z) 323.00 -140.0 ± 20.0 10.3 84-smi/wor (×) 323.15 -154.0 ± 20.0 -3.9 80-mal-1 (▲) 323.15 -151.0 ± 6.0 -0.9 71-coa/kin (Δ) 323.15 -143.2 ± 8.0 6.9 87-pat/hol (Ο) 348.00 -119.0 ± 6.3 2.4 80-wor/col (z) 348.00 -107.0 ± 34.0 14.4 84-smi/wor (×) 348.15 -107.0 ± 4.0 14.2 71-coa/kin (Δ) 348.15 -125.2 ± 6.0 -4.0 87-pat/hol (Ο) 348.15 -125.2 ± 6.0 -4.0 87-pat/hol (Ο) 363.40 -105.0 ± 22.0 2.2 84-smi/wor (×) 363.40 -105.0 ± 22.0 2.2 88-wor/lan (◊) 373.00 -93.0 ± 5.6 6.6 80-wor/col (z) 373.00 -86.0 ± 6.0 13.6 84-smi/wor (×) 373.15 -89.0 ± 2.0 10.5 71-coa/kin (Δ) 373.15 -86.0 ± 10.0 13.5 80-mal-1 (▲) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

Table 3. Experimental Bm values with uncertainty x2 Ref. T Bm ± δBm 3 -1 K cm · mol 323.15 0.020 -129.4 ± 1.2 87-pat/hol 323.15 0.050 -107.6 ± 3.0 87-pat/hol 348.15 0.020 -86.5 ± 1.6 87-pat/hol 348.15 0.050 -88.8 ± 0.6 87-pat/hol 348.15 0.100 -97.5 ± 1.1 87-pat/hol 373.15 0.020 -73.0 ± 0.3 87-pat/hol 373.15 0.050 -74.8 ± 0.2 87-pat/hol 373.15 0.100 -80.6 ± 0.8 87-pat/hol 373.15 0.250 -106.0 ± 2.0 87-pat/hol 373.15 0.500 -181.5 ± 4.0 87-pat/hol 385.65 0.500 -162.7 ± 2.7 87-pat/hol 398.15 0.020 -61.9 ± 0.1 87-pat/hol 398.15 0.050 -63.5 ± 0.2 87-pat/hol 398.15 0.100 -67.8 ± 0.3 87-pat/hol 398.15 0.250 -87.5 ± 1.6 87-pat/hol 398.15 0.500 -145.9 ± 1.2 87-pat/hol 410.65 0.500 -132.7 ± 2.4 87-pat/hol 423.15 0.020 -52.6 ± 0.0 87-pat/hol 423.15 0.050 -53.7 ± 0.1 87-pat/hol 423.15 0.100 -57.7 ± 0.1 87-pat/hol ___________

__________________________________________

Bexp - Bcalc Ref. (Symbol T Bexp ± δB 3 -1 K cm · mol cm3· mol-1 in Fig. 1) 373.15 -100.5 ± 1.0 -1.0 87-pat/hol (Ο) 373.15 -99.3 ± 1.0 0.2 87-pat/hol (Ο) 375.20 -95.0 ± 10.0 2.9 84-smi/wor (×) 375.20 -95.0 ± 10.0 2.9 88-wor/lan (◊) 383.20 -87.0 ± 10.0 5.3 84-smi/wor (×) 383.20 -88.0 ± 10.0 4.3 88-wor/lan (◊) 392.60 -86.0 ± 13.0 0.2 88-wor/lan (◊) 398.15 -82.8 ± 0.8 0.1 87-pat/hol (Ο) 398.15 -83.0 ± 0.8 -0.1 87-pat/hol (Ο) 423.00 -66.0 ± 4.8 4.2 80-wor/col (z) 423.15 -71.7 ± 1.0 -1.5 87-pat/hol (Ο) 423.15 -71.7 ± 1.0 -1.5 87-pat/hol (Ο) 448.15 -63.4 ± 1.4 -3.0 87-pat/hol (Ο) 448.15 -60.9 ± 1.4 -0.5 87-pat/hol (Ο) 473.00 -47.0 ± 4.3 5.8 80-wor/col (z) 473.15 -206.0 ± 80.0 -153.0 79-skr 1 473.15 -52.0 ± 1.4 0.8 87-pat/hol (Ο) 493.15 -126.0 ± 50 -78.0 79-skr 1 523.15 -34.0 ± 20.0 8.4 79-skr 1 _________

T K 423.15 423.15 435.65 448.15 448.15 448.15 448.15 448.15 460.65 473.15 473.15 473.15 473.15 473.15 485.65 498.15 498.15 498.15 498.15 498.15 ___________

______________________________________

x2

_____________________________________

Bm ± δBm cm3· mol-1 -73.8 ± 0.3 -121.2 ± 0.4 -111.9 ± 0.7 -44.6 ± 0.1 -45.5 ± 0.1 -48.9 ± 0.0 -62.7 ± 0.1 -102.9 ± 0.3 -94.7 ± 0.4 -37.8 ± 0.0 -38.4 ± 0.1 -41.5 ± 0.0 -53.3 ± 0.1 -87.4 ± 0.2 -80.7 ± 0.1 -31.8 ± 0.0 -32.4 ± 0.0 -35.1 ± 0.0 -45.4 ± 0.1 -74.8 ± 0.4

Ref.

__________________________________________

0.250 0.500 0.500 0.020 0.050 0.100 0.250 0.500 0.500 0.020 0.050 0.100 0.250 0.500 0.500 0.020 0.050 0.100 0.250 0.500

87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol cont.

Landolt-Börnstein New Series IV/21B

77

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Water (cont.) Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm K 103· cm6· mol-2 323.15 0.020 0.9 ± 8.0 87-pat/hol 348.15 0.020 1.6 ± 4.0 87-pat/hol 348.15 0.050 0.7 ± 2.0 87-pat/hol 348.15 0.100 -2.6 ± 7.0 87-pat/hol 373.15 0.020 2.7 ± 0.7 87-pat/hol 373.15 0.050 2.0 ± 0.5 87-pat/hol 373.15 0.100 0.7 ± 3.3 87-pat/hol 373.15 0.250 -30.6 ± 12.0 87-pat/hol 385.65 0.500 -88.1 ± 22.0 87-pat/hol 398.15 0.020 2.9 ± 0.1 87-pat/hol 398.15 0.050 2.9 ± 0.2 87-pat/hol 398.15 0.100 2.1 ± 0.5 87-pat/hol 398.15 0.250 -7.8 ± 5.0 87-pat/hol 398.15 0.500 -36.7 ± 9.5 87-pat/hol 410.65 0.500 -30.0 ± 9.5 87-pat/hol 423.15 0.020 2.7 ± 0.0 87-pat/hol 423.15 0.050 2.7 ± 0.0 87-pat/hol 423.15 0.100 2.7 ± 0.1 87-pat/hol 423.15 0.250 -0.4 ± 0.8 87-pat/hol ___________

___________________________________________________________

T K 423.15 435.65 448.15 448.15 448.15 448.15 448.15 460.65 473.15 473.15 473.15 473.15 473.15 485.65 498.15 498.15 498.15 498.15 498.15 ___________

x2

Cm ± δCm 103· cm6· mol-2 -18.2 ± 2.2 -7.9 ± 2.6 2.5 ± 0.0 2.5 ± 0.0 2.4 ± 0.0 1.5 ± 0.2 -4.0 ± 0.6 -2.2 ± 0.6 2.4 ± 0.0 2.4 ± 0.0 2.3 ± 0.0 1.9 ± 0.1 -0.5 ± 0.4 0.1 ± 0.1 2.2 ± 0.0 2.2 ± 0.0 2.1 ± 0.0 1.9 ± 0.0 0.9 ± 0.3

0.500 0.500 0.020 0.050 0.100 0.250 0.500 0.500 0.020 0.050 0.100 0.250 0.500 0.500 0.020 0.050 0.100 0.250 0.500

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 373.15 -91.5 ± 20.0 87-pat/hol 398.15 -30.4 ± 10.0 87-pat/hol 398.15 -47.7 ± 10.0 87-pat/hol 423.15 -14.6 ± 8.0 87-pat/hol 423.15 -19.0 ± 8.0 87-pat/hol 448.15 1.8 ± 1.0 87-pat/hol

T K 448.15 473.15 473.15 498.15 498.15

C112 ± δC112 10 · cm6· mol-2 4.2 ± 1.0 0.6 ± 1.0 4.3 ± 1.0 1.2 ± 1.0 2.7 ± 1.0

Ref.

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 348.15 -17.9 ± 6.0 87-pat/hol 373.15 -1.2 ± 1.0 87-pat/hol 373.15 -5.6 ± 2.0 87-pat/hol 398.15 4.0 ± 1.2 87-pat/hol 398.15 5.4 ± 1.2 87-pat/hol 423.15 4.7 ± 1.2 87-pat/hol 423.15 3.7 ± 1.1 87-pat/hol

T K 448.15 448.15 473.15 473.15 498.15 498.15

C122 ± δC122 103· cm6· mol-2 2.8 ± 1.1 3.5 ± 1.1 2.9 ± 1.1 3.5 ± 1.1 2.5 ± 1.1 3.8 ± 1.1

Ref.

___________

___________

Landolt-Börnstein New Series IV/21B

__________________________________________________________

__________________________________________________________

___________

___________

Ref.

___________________________________________________________

87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol

__________________________________________________________

3

87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol

__________________________________________________________

87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol 87-pat/hol

78

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Helium

[124-38-9] [7440-59-7]

CO2 He

MW = 44.01 MW = 4.00

141

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 4.8515 · 10 − 7.9326 · 103/(T/K) (B12 ± 2σest)/cm3· mol-1 8.9 ± 4 16.8 ± 4

T/K 200 250

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 22.1 ± 4 25.9 ± 4

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 28.7 ± 4 30.9 ± 4

15

(B 12 - B 12calc)/cm3·mol-1

10

5

0

-5

-10

-15 150

200

250

300

350

400

450

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 193.00 12.5 ± 6.0 5.1 86-eli/hoa (♦) 213.00 15.3 ± 3.0 4.0 86-eli/hoa (♦) 220.00 13.1 ± 1.0 0.6 80-hol/wat („) 223.20 23.0 ± 1.0 10.0 67-bre (×) 230.00 14.1 ± 1.0 0.1 80-hol/wat („) 240.00 15.4 ± 1.0 -0.1 80-hol/wat („) _________

______________________________________

Landolt-Börnstein New Series IV/21B

_____________________________________

T K 248.20 250.00 253.00 260.00 270.00 273.20 _________

Bexp ± δB cm3· mol-1 23.7 ± 1.0 16.2 ± 1.0 19.0 ± 5.0 17.0 ± 1.0 17.7 ± 1.0 19.7 ± 1.0 ______________________________________

Bexp - Bcalc cm3· mol-1 7.1 -0.6 1.8 -1.0 -1.4 0.2 _____________________________________

Ref. (Symbol in Fig. 1) 67-bre (×) 80-hol/wat („) 86-eli/hoa (♦) 80-hol/wat („) 80-hol/wat („) 67-bre (×) cont.

79

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Helium (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 280.00 18.4 ± 1.0 -1.8 290.00 18.9 ± 1.0 -2.3 290.00 20.1 ± 0.6 -1.1 290.00 20.0 ± 1.8 -1.2 292.90 20.6 ± 1.0 -0.8 296.20 20.8 ± 4.0 -0.9 298.20 -36.1 ± 3.0 -58.0 300.00 19.6 ± 1.0 -2.5 300.00 20.4 ± 0.6 -1.7 300.00 20.6 ± 1.8 -1.5 303.20 18.9 ± 0.1 -3.5 303.20 21.6 ± 3.4 -0.8 1 Not included in Figure 1. _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 80-hol/wat („) 80-hol/wat („) 82-mar/tre (…) 92-bel/big (Δ) 81-bel/dun (▲) 86-eli/hoa (♦) 42-edw/ros 1 80-hol/wat („) 82-mar/tre (…) 92-bel/big (Δ) 55-pfe/gof (•) 56-cot/ham-1(▲)

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 223.20 0.500 133.6 ± 0.2 67-bre 248.20 0.500 106.8 ± 0.2 67-bre 273.20 0.500 88.8 ± 0.2 67-bre 290.00 0.500 79.8 ± 0.2 82-mar/tre 290.00 0.500 80.4 ± 1.0 92-bel/big 292.90 0.500 78.8 ± 0.3 81-bel/dun ___________

________________________________________

Carbon dioxide Krypton

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 223.20 0.500 43.7 ± 0.2 67-bre 273.20 0.500 24.2 ± 0.2 67-bre 290.00 0.500 22.1 ± 1.0 92-bel/big ___________

Landolt-Börnstein New Series IV/21B

T K 300.00 300.00 303.20 310.00 313.50 320.00 ___________

[124-38-9] [7439-90-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 223.20 -120.3 ± 2.0 67-bre 273.20 -82.2 ± 2.0 67-bre 290.00 -71.5 ± 5.0 92-bel/big ___________

T K 303.20 303.20 310.00 313.50 320.00 320.00 323.20 333.20 363.20 373.20 423.20 _________

________________________________________

T K 300.00 310.00 ___________

T K 300.00 310.00 ___________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 22.4 ± 12.0 0.0 20.5 ± 1.0 -1.9 20.4 ± 1.8 -2.5 20.6 ± 1.0 -2.6 20.6 ± 1.0 -3.1 19.3 ± 0.6 -4.4 28.8 ± 0.1 4.8 24.6 ± 3.0 -0.1 22.6 ± 6.8 -4.1 28.1 ± 0.1 0.8 28.2 ± 0.1 -1.6 ______________________________________

x1

_____________________________________

BE ± δBE cm3· mol-1 75.1 ± 0.2 75.6 ± 1.0 74.2 ± 0.3 71.6 ± 1.0 70.3 ± 0.3 67.4 ± 0.3

Ref. (Symbol in Fig. 1) 57-har/mil (◊) 81-bel/dun (▲) 92-bel/big (Δ) 81-bel/dun (▲) 81-bel/dun (▲) 82-mar/tre (…) 75-lin/rod (+) 56-cot/ham-2(z) 56-cot/ham-3(Ο) 74-tsi/lin (9) 74-tsi/lin-1(9)

Ref.

________________________________________

0.500 0.500 0.500 0.500 0.500 0.500

CO2 Kr

82-mar/tre 92-bel/big 81-bel/dun 92-bel/big 81-bel/dun 81-bel/dun

MW = 44.01 MW = 83.80

B12 ± δB12 cm3· mol-1 -64.7 ± 5.0 -59.0 ± 5.0

142

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1 21.1 ± 1.0 21.7 ± 1.0

92-bel/big 92-bel/big

Ref.

________________________________________

0.500 0.500

92-bel/big 92-bel/big

80

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Nitrogen

[124-38-9] [7727-37-9]

CO2 N2

MW = 44.01 MW = 28.01

143

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.8683 ⋅ 10 + 1.9172 ⋅ 104/(T/K) − 2.0167 ⋅ 107/(T/K)2 + 3.4250 ⋅ 109/(T/K)3 − 2.1815 ⋅ 1011/(T/K)4 T/K 110 150 200

(B12 ± 2σest)/cm3· mol-1 -390.4 ± 15 -165.9 ± 12 -97.9 ± 10

T/K 250 300 350

(B12 ± 2σest)/cm3· mol-1 -64.0 ± 5 -41.6 ± 5 -25.8 ± 5

T/K 400

(B12 ± 2σest)/cm3· mol-1 -14.4 ± 5

30 25 (B 12 - B 12calc)/cm 3·mol-1

20 15 10 5 0 -5 -10 -15 -20 100

125

150

175

200

225

250

275

300

325

350

375

400

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 110.00 -397.0 ± 13.0 -6.5 77-yak/glu ({) 115.00 -327.0 ± 13.0 7.8 77-yak/glu ({) 120.00 -278.0 ± 13.0 14.0 77-yak/glu ({) 125.00 -256.0 ± 13.0 2.6 77-yak/glu ({) 213.15 -95.1 ± 2.0 -7.8 71-ng (×) 223.20 -77.5 ± 1.0 2.6 67-bre (-) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T K 233.15 248.20 253.15 273.15 273.15 273.20 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -84.0 ± 2.0 -10.3 -59.8 ± 1.0 5.1 -68.9 ± 2.0 -6.6 -57.3 ± 2.0 -4.7 -52.0 ± 2.0 0.6 -50.9 ± 1.0 1.6 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 71-ng (×) 67-bre (-) 71-ng (×) 71-ng (×) 88-jae/aud (z) 67-bre (-) cont.

81

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Nitrogen (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 288.70 -42.9 ± 5.0 3.0 290.00 -44.1 ± 1.4 1.3 293.15 -45.7 ± 1.5 -1.5 293.15 -42.9 ± 2.0 1.3 293.15 -43.1 ± 2.8 1.1 293.20 -45.6 ± 3.0 -1.4 298.20 -47.5 ± 3.0 -5.3 300.00 -40.4 ± 1.3 1.2 300.00 -40.5 ± 0.4 1.1 303.15 -40.6 ± 0.2 -0.2 303.15 -41.4 ± 6.2 -1.0 303.15 -41.0 ± 1.5 -0.6 303.20 -40.5 ± 0.1 -0.1 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 61-mas/eak (−) 82-mar/tre (▲) 71-ng (×) 88-jae/aud (z) 91-lop/roz (∆) 90-jia/wan („) 42-edw/ros (+) 82-mar/tre (▲) 89-bru/hwa (♦) 53-gor/mil (…) 56-cot/ham („) 71-ng (×) 55-pfe/gof (◊)

Table 3. Experimental Bm values with uncertainty. T x1 Ref. Bm ± δBm K cm3· mol-1 220.00 0.497 -99.0 ± 0.5 89-esp/bai 230.00 0.497 -90.3 ± 0.5 89-esp/bai 240.00 0.497 -81.6 ± 0.5 89-esp/bai 250.00 0.497 -73.8 ± 0.5 89-esp/bai 260.00 0.497 -67.0 ± 0.5 89-esp/bai 270.00 0.497 -60.8 ± 0.5 89-esp/bai 280.00 0.497 -55.3 ± 0.5 89-esp/bai 290.00 0.497 -50.3 ± 0.0 89-esp/bai 298.15 0.251 -26.9 ± 1.0 44-han//bli 298.15 0.505 -55.0 ± 1.0 44-han//bli 300.00 0.000 -4.5 ± 0.2 89-bru/hwa 300.00 0.106 -12.6 ± 0.1 89-bru/hwa 300.00 0.252 -25.6 ± 0.1 89-bru/hwa 300.00 0.504 -52.1 ± 0.2 89-bru/hwa 300.00 0.909 -107.1 ± 0.1 89-bru/hwa 300.00 0.497 -45.7 ± 0.5 89-esp/bai 300.00 0.711 -78.5 ± 0.1 89-bru/hwa 310.00 0.497 -41.6 ± 0.5 89-esp/bai ___________

__________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 223.20 0.500 52.2 ± 0.2 67-bre 248.20 0.500 38.1 ± 0.2 67-bre 273.20 0.500 29.4 ± 0.2 67-bre ___________

________________________________________

T K 313.15 313.15 320.00 320.00 323.15 333.15 333.15 333.15 348.15 363.15 363.15 373.15 393.15 _________

T K 320.00 320.00 320.00 320.00 320.00 320.00 320.00 323.00 323.15 323.15 348.00 348.15 348.15 373.15 373.15 398.15 398.15

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -37.3 ± 1.0 -0.4 -35.4 ± 2.0 1.5 -34.4 ± 1.2 0.2 -33.4 ± 0.4 1.2 -33.3 ± 1.0 0.3 -36.0 ± 4.0 -5.4 -30.5 ± 1.0 0.1 -29.6 ± 2.0 1.0 -26.2 ± 1.0 0.1 -28.5 ± 3.6 -6.0 -22.9 ± 1.0 -0.4 -20.7 ± 0.8 -0.6 -15.6 ± 0.6 0.2 ______________________________________

x1

___________

T K 290.00 300.00 320.00

_____________________________________

Bm ± δBm cm3· mol-1 -1.1 ± 0.1 -8.5 ± 0.1 -19.9 ± 0.1 -43.6 ± 0.1 -91.8 ± 0.1 -37.7 ± 0.5 -66.7 ± 0.1 -21.6 ± 2.0 -19.5 ± 1.0 -43.7 ± 1.0 -13.8 ± 1.5 -14.0 ± 1.0 -34.0 ± 1.0 -9.6 ± 1.0 -27.4 ± 1.0 -5.9 ± 1.0 -20.3 ± 1.0

Ref. (Symbol in Fig. 1) 71-ng (×) 88-jae/aud (z) 82-mar/tre (▲) 89-bru/hwa (♦) 71-ng (×) 56-cot/ham („) 71-ng (×) 88-jae/aud (z) 71-ng (×) 56-cot/ham („) 71-ng (×) 71-ng (×) 71-ng (×)

Ref.

__________________________________________

0.000 0.106 0.252 0.504 0.909 0.497 0.711 0.750 0.251 0.505 0.750 0.251 0.505 0.251 0.505 0.251 0.505

x1

___________

BE ± δBE cm3· mol-1 24.2 ± 0.2 22.1 ± 0.2 19.3 ± 0.2

89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-esp/bai 89-bru/hwa 88-hac/yoo 44-han//bli 44-han//bli 88-hac/yoo 44-han//bli 44-han//bli 44-han//bli 44-han//bli 44-han//bli 44-han//bli

Ref.

________________________________________

0.500 0.500 0.500

82-mar/tre 82-mar/tre 82-mar/tre

cont. Landolt-Börnstein New Series IV/21B

82

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Nitrogen (cont.) Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm K 103· cm6· mol-2 230.00 0.497 3.1 ± 0.3 89-esp/bai 240.00 0.497 3.1 ± 0.3 89-esp/bai 250.00 0.497 3.0 ± 0.3 89-esp/bai 260.00 0.497 2.9 ± 0.3 89-esp/bai 270.00 0.497 2.8 ± 0.3 89-esp/bai 280.00 0.497 2.7 ± 0.3 89-esp/bai 290.00 0.497 2.6 ± 0.3 89-esp/bai 300.00 0.000 1.4 ± 0.2 89-bru/hwa 300.00 0.106 1.6 ± 0.2 89-bru/hwa 300.00 0.252 2.0 ± 0.3 89-bru/hwa 300.00 0.508 2.6 ± 0.4 89-bru/hwa 300.00 0.711 3.4 ± 0.5 89-bru/hwa ___________

___________________________________________________________

T K 300.00 300.00 310.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 323.00 348.00 ___________

x1

Cm ± δCm 103· cm6· mol-2 4.4 ± 0.6 2.4 ± 0.3 2.3 ± 0.3 1.4 ± 0.2 1.6 ± 0.2 1.8 ± 0.3 2.4 ± 0.4 3.1 ± 0.5 3.9 ± 0.5 2.2 ± 0.3 2.1 ± 0.5 2.1 ± 0.5

0.909 0.497 0.497 0.000 0.106 0.252 0.504 0.711 0.909 0.497 0.750 0.750

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 273.15 3.4 ± 0.3 88-jae/aud 293.15 3.2 ± 0.3 88-jae/aud 300.00 2.8 ± 0.1 89-bru/hwa

T K 310.00 313.15 333.15

C112 ± δC112 103· cm6· mol-2 2.6 ± 0.1 2.9 ± 0.3 2.7 ± 0.3

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 2.1 ± 0.2 88-jae/aud 293.15 1.9 ± 0.2 88-jae/aud 300.00 2.0 ± 0.1 89-bru/hwa

T K 313.15 320.00 333.15

C122 ± δC122 103· cm6· mol-2 1.8 ± 0.2 1.9 ± 0.1 1.7 ± 0.2

___________

___________

__________________________________________________________

__________________________________________________________

Carbon dioxide Neon

___________

___________

[124-38-9] [7440-01-9]

CO2 Ne

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 223.20 0.500 115.8 ± 0.2 67-bre 248.20 0.500 91.9 ± 0.2 67-bre 273.20 0.500 75.8 ± 0.2 67-bre

T K 290.00 300.00 310.00

x1

___________

Landolt-Börnstein New Series IV/21B

________________________________________

___________

89-bru/hwa 88-jae/aud 88-jae/aud

Ref. 88-jae/aud 89-bru/hwa 88-jae/aud

MW = 44.01 MW = 20.18

B12 ± δB12 cm3· mol-1 6.80 ± 2.0 8.00 ± 2.0 8.60 ± 2.0

___________

Ref.

__________________________________________________________

T K 290.00 300.00 310.00

______________________________________________

89-bru/hwa 89-esp/bai 89-esp/bai 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-esp/bai 88-hac/yoo 88-hac/yoo

__________________________________________________________

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 223.20 3.82 ± 1.0 67-bre 248.20 8.02 ± 1.0 67-bre 273.20 6.25 ± 1.0 67-bre ___________

Ref.

___________________________________________________________

144

Ref.

______________________________________________

92-bel/big 92-bel/big 92-bel/big

BE ± δBE cm3· mol-1 67.6 ± 1.0 63.1 ± 1.0 59.8 ± 1.0

Ref.

________________________________________

0.500 0.500 0.500

92-bel/big 92-bel/big 92-bel/big

83

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Oxygen

[124-38-9] [7782-44-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -44.8 ± 1.4 82-mar/tre 298.20 -56.4 ± 3.0 42-edw/ros 300.00 -40.8 ± 1.3 82-mar/tre 303.15 -41.5 ± 0.3 53-gor/mil ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. T x1 BE ± δBE Ref. K cm3· mol-1 290.00 0.500 29.40 ± 0.2 82-mar/tre 320.00 0.500 27.50 ± 0.2 82-mar/tre ___________

________________________________________

Carbon dioxide Xenon

_____________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 223.30 0.500 44.8 ± 0.2 67-bre 273.20 0.500 27.4 ± 0.2 67-bre 290.00 0.500 24.0 ± 1.0 92-bel/big ___________

________________________________________

Carbon dioxide Tetrachloromethane

Landolt-Börnstein New Series IV/21B

______________________________________________

CO2 Xe

CO2 CCl4

T K 348.15 348.20 353.20

BE ± δBE cm3· mol-1 23.90 ± 0.2

56-cot/ham 82-mar/tre 56-cot/ham 56-cot/ham

Ref. 82-mar/tre

MW = 44.01 MW = 131.29

146

Ref.

______________________________________________

T x1 K 300.00 0.500 310.00 0.500

___________

Ref.

________________________________________

B12 ± δB12 cm3· mol-1 -102.2 ± 10.0 -93.6 ± 9.0

___________

[124-38-9] [56-23-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -287 ± 7 72-gup/kin 323.15 -205 ± 8 59-pra/ben 323.20 -213 ± 5 72-gup/kin ___________

T K 300.00 310.00

145

______________________________________________

T x1 K 310.00 0.500

___________

MW = 44.01 MW = 32.00

B12 ± δB12 cm3· mol-1 -36.8 ± 5.2 -35.0 ± 1.3 -28.4 ± 5.6 -25.6 ± 4.4

___________

[124-38-9] [7440-63-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 223.20 -185.1 ± 2.0 67-bre 273.20 -124.7 ± 2.0 67-bre 290.00 -113.5 ± 10.0 92-bel/big ___________

T K 303.15 320.00 333.15 363.15 ___________

CO2 O2

BE ± δBE cm3· mol-1 25.0 ± 1.0 25.0 ± 1.0

92-bel/big 92-bel/big

Ref.

________________________________________

92-bel/big 92-bel/big

MW = 44.01 MW = 153.82

B12 ± δB12 cm3· mol-1 -163 ± 9 -185 ± 7 -154 ± 70

147

Ref.

______________________________________________

59-pra/ben 72-gup/kin 71-vig/sem-1

84

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Tetrafluoromethane

[124-38-9] [75-73-0]

CO2 CF4

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -95.6 ± 3.4 86-dun/big 300.00 -85.2 ± 3.1 86-dun/big

T K 320.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 19.8 ± 0.4 86-dun/big 300.00 0.500 18.6 ± 0.4 86-dun/big

T x1 K 320.00 0.500

___________

______________________________________________

___________

________________________________________

Carbon dioxide Chlorodifluoromethane

___________

[124-38-9] [75-45-6]

[124-38-9] [67-66-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -316 ± 15 73-gup/les ___________

______________________________________________

Carbon dioxide Nitromethane

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 353.20 ___________

T K

Ref. 86-dun/big

MW = 44.01 MW = 86.47

B12 ± δB12 cm3· mol-1

149

Ref.

______________________________________________

MW = 44.01 MW = 119.38

B12 ± δB12 cm3· mol-1 -169 ± 70

150

Ref.

______________________________________________

CO2 CH3NO2

___________

86-dun/big

BE ± δBE cm3· mol-1 15.6 ± 0.4

CO2 CHCl3

[124-38-9] [75-52-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -188 ± 70 71-vig/sem-1 ___________

T K

Ref.

________________________________________

CO2 CHClF2

___________

______________________________________________

Carbon dioxide Trichloromethane

B12 ± δB12 cm3· mol-1 -73.5 ± 2.7

148

______________________________________________

___________

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 293.20 -228.5 ± 10.0 90-jia/wan ___________

MW = 44.01 MW = 88.00

71-vig/sem-1

MW = 44.01 MW = 61.04

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

151

85

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Methane

[124-38-9] [74-82-8]

CO2 CH4

MW = 44.01 MW = 16.04

152

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.6073 ⋅ 102 − 1.3829 ⋅ 105/(T/K) + 3.5911 ⋅ 107/(T/K)2 − 4.3948 ⋅ 109/(T/K)3 T/K 220 250

(B12 ± 2σest)/cm3· mol-1 -138.7 ± 15 -99.2 ± 7

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -64.0 ± 5 -43.8 ± 4

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 213.15 -136.7 ± 2.0 14.8 71-ng (∆) 233.15 -114.9 ± 2.0 3.6 71-ng (∆) 253.15 -97.5 ± 1.5 -1.4 71-ng (∆) 273.15 -81.2 ± 1.5 -1.3 71-ng (∆) 273.15 -78.1 ± 2.0 1.8 88-jae/aud (-) 273.20 -77.6 ± 1.0 2.2 67-bre („) 288.70 -62.9 ± 5.0 7.2 61-mas/eak (♦) 290.00 -68.6 ± 1.7 0.7 82-mar/tre (×) 290.00 -68.6 ± 1.7 0.7 87-mar/tre (−) 293.15 -67.3 ± 1.5 0.3 71-ng (∆) 293.15 -67.0 ± 2.0 0.6 88-jae/aud (-) 298.15 -64.8 ± 0.8 0.1 80-kat/ohg ({) 300.00 -63.2 ± 1.6 0.8 82-mar/tre (×) 300.00 -63.2 ± 1.6 0.8 87-mar/tre (−) 300.00 -63.2 ± 0.5 0.8 89-bru/hwa (◊) 303.33 -64.4 ± 3.3 -2.1 90-mce/kee (…) _________

______________________________________

_____________________________________

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 230.00 0.476 -128.5 ± 0.5 89-esp/bai 240.00 0.476 -116.8 ± 0.5 89-esp/bai 250.00 0.476 -107.5 ± 0.5 89-esp/bai 260.00 0.476 -98.2 ± 0.5 89-esp/bai 270.00 0.476 -90.2 ± 0.5 89-esp/bai 280.00 0.476 -82.9 ± 0.5 89-esp/bai 290.00 0.476 -76.3 ± 0.5 89-esp/bai 300.00 0.476 -70.5 ± 0.5 89-esp/bai 300.00 0.000 -42.0 ± 0.1 89-bru/hwa 300.00 0.100 -46.9 ± 0.1 89-bru/hwa 300.00 0.299 -58.0 ± 0.1 89-bru/hwa 300.00 0.676 -87.7 ± 0.0 89-bru/hwa 300.00 0.901 -110.5 ± 0.1 89-bru/hwa 310.00 0.476 -65.1 ± 0.5 89-esp/bai ___________

__________________________________________

T K 303.38 313.15 313.15 313.30 313.34 320.00 320.00 320.00 323.15 333.15 333.15 353.15 373.15 393.15 398.15 _________

T K 320.00 320.00 320.00 320.00 320.00 320.00 323.15 323.15 348.15 348.15 373.15 373.15 398.15 398.15 ___________

T/K 400

(B12 ± 2σest)/cm3· mol-1 -29.3 ± 3

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -65.8 ± 3.3 -3.5 90-mce/kee (…) -57.3 ± 1.5 0.5 71-ng (∆) -57.2 ± 2.0 0.6 88-jae/aud (-) -61.2 ± 3.2 -3.5 90-mce/kee (…) -58.0 ± 3.2 -0.3 90-mce/kee (…) -55.2 ± 1.5 -0.3 82-mar/tre (×) -55.2 ± 1.6 -0.3 87-mar/tre (−) -54.1 ± 0.5 0.8 89-bru/hwa (◊) -55.7 ± 3.1 -2.1 90-mce/kee (…) -48.5 ± 1.0 1.2 71-ng (∆) -48.6 ± 2.0 1.1 88-jae/aud (-) -43.2 ± 1.0 -0.5 71-ng (∆) -36.6 ± 0.9 0.0 71-ng (∆) -33.3 ± 0.8 -2.3 71-ng (∆) -29.5 ± 0.2 0.2 82-ohg/nak-1 (z) ______________________________________

x1

_____________________________________

Bm ± δBm cm3· mol-1 -60.1 ± 0.5 -35.0 ± 0.1 -39.2 ± 0.1 -49.2 ± 0.1 -75.2 ± 0.1 -94.7 ± 0.1 -34.5 ± 0.3 -60.6 ± 0.7 -27.0 ± 0.3 -48.4 ± 0.5 -21.4 ± 0.3 -39.2 ± 0.2 -15.9 ± 0.2 -32.1 ± 0.4

Ref.

__________________________________________

0.476 0.000 0.100 0.299 0.676 0.901 0.000 0.482 0.000 0.482 0.000 0.482 0.000 0.482

89-esp/bai 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis cont.

Landolt-Börnstein New Series IV/21B

86

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Methane (cont.) 20

(B 12 - B 12calc)/cm3·mol-1

15

10

5

0

-5

-10 200

220

240

260

280

300

320

340

360

380

400

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 273.20 0.500 24.1 ± 0.2 67-bre 290.00 0.500 20.1 ± 1.5 87-mar/tre

T K 300.00 320.00

Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm K 103· cm6· mol-2 250.00 0.476 4.3 ± 0.3 89-esp/bai 260.00 0.476 4.1 ± 0.3 89-esp/bai 270.00 0.476 3.9 ± 0.3 89-esp/bai 280.00 0.476 3.6 ± 0.3 89-esp/bai 290.00 0.476 3.4 ± 0.3 89-esp/bai 300.00 0.476 3.2 ± 0.3 89-esp/bai 300.00 0.000 2.4 ± 0.0 89-bru/hwa 300.00 0.100 2.6 ± 0.0 89-bru/hwa 300.00 0.299 2.9 ± 0.1 89-bru/hwa

T K 300.00 300.00 310.00 320.00 320.00 320.00 320.00 320.00 320.00

___________

___________

Landolt-Börnstein New Series IV/21B

________________________________________

___________________________________________________________

___________

___________

x1

BE ± δBE cm3· mol-1 18.3 ± 1.5 15.2 ± 1.4

Ref.

________________________________________

0.500 0.500

x1

Cm ± δCm 103· cm6· mol-2 3.8 ± 0.1 4.6 ± 0.2 3.1 ± 0.3 2.9 ± 0.3 2.2 ± 0.0 2.4 ± 0.0 2.6 ± 0.1 3.4 ± 0.1 4.0 ± 0.2

87-mar/tre 87-mar/tre

Ref.

___________________________________________________________

0.676 0.901 0.476 0.476 0.000 0.100 0.299 0.676 0.901

89-bru/hwa 89-bru/hwa 89-esp/bai 89-esp/bai 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa cont.

87

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Methane (cont.) Table 5. (cont.) T x1 K 323.15 0.000 323.15 0.482 348.15 0.000 348.15 0.482 ___________

Cm ± δCm 103· cm6· mol-2 3.0 ± 0.1 4.1 ± 0.1 2.7 ± 0.1 3.0 ± 0.0

Ref.

T K 373.15 373.15 398.15 398.15 ___________

___________________________________________________________

90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis

x1

Cm ± δCm 103· cm6· mol-2 2.5 ± 0.1 3.0 ± 0.1 2.4 ± 0.1 2.7 ± 0.1

0.000 0.482 0.000 0.482

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 K 103· cm6· mol-2 273.15 4.2 ± 0.4 88-jae/aud 293.15 3.9 ± 0.4 88-jae/aud 300.00 3.6 ± 0.1 89-bru/hwa

T K 313.15 320.00 333.15

C112 ± δC112 103· cm6· mol-2 3.5 ± 0.4 3.2 ± 0.1 3.2 ± 0.4

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 3.3 ± 0.2 88-jae/aud 293.15 3.0 ± 0.2 88-jae/aud 300.00 2.9 ± 0.1 89-bru/hwa

T K 313.15 320.00 333.15

C122 ± δC122 103· cm6· mol-2 2.7 ± 0.2 2.7 ± 0.1 2.5 ± 0.2

___________

___________

__________________________________________________________

__________________________________________________________

Carbon dioxide Methanol

______________________________________________

Carbon dioxide Ethene

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 298.15 310.15 313.20 323.15 333.15 ___________

T K 373.20 398.15 398.20

Ref. 88-jae/aud 89-bru/hwa 88-jae/aud

Ref.

__________________________________________________________

88-jae/aud 89-bru/hwa 88-jae/aud

MW = 44.01 MW = 32.04

B12 ± δB12 cm3· mol-1 -308.0 ± 5.0 -265.0 ± 8.0 -236.0 ± 20.0 -237.0 ± 3.0 -217.0 ± 7.0

153

Ref.

______________________________________________

CO2 C2H4

___________

90-mal/vis 90-mal/vis 90-mal/vis 90-mal/vis

__________________________________________________________

CO2 CH4O

[124-38-9] [74-85-1]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 298.20 -125.2 ± 3.0 42-edw/ros 298.15 -122.4 ± 1.2 81-ohg/miz 348.20 -77.1 ± 1.5 67-sas/dod 373.20 -93.0 ± 4.7 67-ku/dod ___________

___________

[124-38-9] [67-56-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 241.80 -942.0 ± 70.0 93-sch/lan 262.00 -564.0 ± 50.0 93-sch/lan 263.20 -584.0 ± 31.0 80-laz/bre 273.20 -465.0 ± 16.0 80-laz/bre 282.90 -361.0 ± 40.0 93-sch/lan 288.15 -352.0 ± 7.0 72-hem/kin ___________

___________

Ref.

___________________________________________________________

72-hem/kin 72-hem/kin 66-sie/van 72-hem/kin 72-hem/kin

MW = 44.01 MW = 28.05

B12 ± δB12 cm3· mol-1 -71.4 ± 1.4 -60.7 ± 0.3 -64.0 ± 1.3

154

Ref.

______________________________________________

67-sas/dod 82-ohg/nak-1 67-sas/dod

88

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 1,1-Dichloroethane

[124-38-9] [75-34-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.20 -215 ± 20 66-sie/van ___________

T K

___________

______________________________________________

Carbon dioxide Nitroethane

[124-38-9] [79-24-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -247 ± 70 71-vig/sem-1 ___________

CO2 C2H4Cl2

Carbon dioxide Ethane

B12 ± δB12 cm3· mol-1

T K

[124-38-9] [74-84-0]

155

Ref.

______________________________________________

CO2 C2H5NO2

___________

______________________________________________

MW = 44.01 MW = 98.96

MW = 44.01 MW = 75.07

B12 ± δB12 cm3· mol-1

156

Ref.

______________________________________________

CO2 C2H6

MW = 44.01 MW = 30.07

157

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 2.8002 ⋅ 103 + 2.4580 ⋅ 106/(T/K) − 7.2439 ⋅ 108/(T/K)2 + 6.8408 ⋅ 1010/(T/K)3 T/K 250

(B12 ± 2σest)/cm3· mol-1 -180.3 ± 8

T/K 300

(B12 ± 2σest)/cm3· mol-1 -122.0 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 250.00 -181.0 ± 1.2 -0.7 82-hol/you (∆) 260.00 -167.0 ± 1.2 3.1 82-hol/you (∆) 270.00 -154.4 ± 1.2 3.4 82-hol/you (∆) 273.15 -151.3 ± 2.0 2.5 88-jae/aud ({) 273.20 -150.6 ± 20.0 3.1 87-jae (…) 280.00 -142.9 ± 1.2 2.1 82-hol/you (∆) 288.70 -124.2 ± 5.0 10.2 61-mas/eak (♦) 290.00 -132.5 ± 1.2 0.4 82-hol/you (∆) 293.15 -128.1 ± 2.0 1.2 88-jae/aud ({) 293.20 -130.1 ± 18.0 -0.8 87-jae (…) 298.15 -121.8 ± 1.4 2.1 80-kat/ohg („) 300.00 -122.9 ± 1.2 -0.9 82-hol/you (∆) 300.00 -122.5 ± 0.4 -0.5 89-bru/hwa (◊) _________

______________________________________

_____________________________________

T K 303.49 313.15 313.20 313.24 313.25 320.00 320.00 320.00 323.15 323.16 333.15 333.20 353.20 _________

T/K 350

(B12 ± 2σest)/cm3· mol-1 -95.2 ± 5

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -123.6 ± 4.5 -5.0 -111.4 ± 2.0 -1.1 -112.8 ± 16.0 -2.6 -112.7 ± 4.2 -2.5 -115.8 ± 4.3 -5.6 -105.7 ± 0.3 -0.3 -105.4 ± 0.2 0.0 -105.1 ± 0.2 0.3 -106.4 ± 4.1 -2.9 -107.2 ± 4.1 -3.7 -101.2 ± 2.0 -2.4 -98.6 ± 15.0 0.1 -87.7 ± 14.0 7.4 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 90-mce/kee (×) 88-jae/aud ({) 87-jae (…) 90-mce/kee (×) 90-mce/kee (×) 89-bru/hwa (◊) 92-web (z) 92-web (z) 90-mce/kee (×) 90-mce/kee (×) 88-jae/aud ({) 87-jae (…) 87-jae (…)

cont. Landolt-Börnstein New Series IV/21B

89

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Ethane (cont.)

25

(B 12 - B 12calc)/cm3·mol-1

20 15 10 5 0 -5 -10 -15 -20 225

250

275

300

325

350

375

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 300.00 0.100 -171.5 ± 0.2 89-bru/hwa 300.00 0.252 -156.7 ± 0.1 89-bru/hwa 300.00 0.493 -137.5 ± 0.2 89-bru/hwa 300.00 0.740 -126.1 ± 0.5 89-bru/hwa 300.00 0.904 -121.8 ± 0.1 89-bru/hwa 320.00 0.100 -149.4 ± 0.6 89-bru/hwa 320.00 0.252 -135.6 ± 0.2 89-bru/hwa 320.00 0.493 -119.3 ± 0.2 89-bru/hwa 320.00 0.740 -108.7 ± 0.1 89-bru/hwa

T K 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00

Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 300.00 0.100 10.0 ± 0.5 89-bru/hwa 300.00 0.252 8.8 ± 0.4 89-bru/hwa 300.00 0.493 7.1 ± 0.4 89-bru/hwa 300.00 0.740 5.9 ± 0.3 89-bru/hwa 300.00 0.904 5.2 ± 0.3 89-bru/hwa 300.00 0.000 11.1 ± 0.5 89-ngu/igl 300.00 0.100 10.3 ± 0.4 89-ngu/igl 300.00 0.250 9.1 ± 0.4 89-ngu/igl

T K 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00

___________

___________

Landolt-Börnstein New Series IV/21B

__________________________________________

___________________________________________________________

___________

___________

x1

Bm ± δBm cm3· mol-1 -104.8 ± 0.1 -159.3 ± 0.2 -135.7 ± 0.2 -118.9 ± 0.1 -108.5 ± 0.2 -104.5 ± 0.1 -159.3 ± 0.2 -135.5 ± 0.2 -119.0 ± 0.1

Ref.

__________________________________________

0.904 0.000 0.252 0.493 0.740 1.000 0.000 0.252 0.493

x1

Cm ± δCm 10 · cm6· mol-2 7.4 ± 0.4 5.9 ± 0.3 5.1 ± 0.3 4.7 ± 0.2 11.1 ± 0.5 10.1 ± 0.5 8.9 ± 0.4 7.2 ± 0.4

89-bru/hwa 92-web 92-web 92-web 92-web 92-web 92-web 92-web 92-web

Ref.

___________________________________________________________

3

0.490 0.740 0.900 1.000 0.000 0.100 0.250 0.490

89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl cont.

90

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Ethane (cont.) Table 5. (cont.) T x1 K 300.00 0.740 300.00 0.900 300.00 1.000 320.00 0.000 320.00 0.100 320.00 0.250 320.00 0.490 320.00 0.740 320.00 0.900 320.00 1.000 320.00 0.000 320.00 0.100 320.00 0.250 320.00 0.490 320.00 0.740 320.00 0.900

Cm ± δCm 103· cm6· mol-2 5.8 ± 0.3 5.1 ± 0.3 4.7 ± 0.2 10.1 ± 0.5 9.4 ± 0.5 8.3 ± 0.4 6.8 ± 0.3 5.4 ± 0.3 4.7 ± 0.2 4.3 ± 0.2 10.1 ± 0.5 9.3 ± 0.5 8.1 ± 0.4 6.6 ± 0.3 5.3 ± 0.3 4.7 ± 0.2

___________

Ref.

T K 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 320.00 ___________

___________________________________________________________

89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl 89-ngu/igl

x1

Cm ± δCm 103· cm6· mol-2 4.3 ± 0.2 9.1 ± 0.5 7.8 ± 0.4 6.3 ± 0.3 5.2 ± 0.3 4.6 ± 0.2 6.3 ± 0.0 5.2 ± 0.1 4.4 ± 0.0 9.7 ± 0.1 9.6 ± 0.1 7.8 ± 0.1 7.8 ± 0.1 6.3 ± 0.0 5.1 ± 0.1 4.4 ± 0.0

1.000 0.100 0.252 0.493 0.740 0.904 0.493 0.740 1.000 0.000 0.000 0.252 0.252 0.493 0.740 1.000

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 3 6 -2 K 10 · cm · mol 273.15 7.5 ± 0.7 88-jae/aud 293.15 5.9 ± 0.6 88-jae/aud 300.00 5.5 ± 0.2 89-bru/hwa 313.15 5.5 ± 0.6 88-jae/aud

T K 320.00 320.00 333.15

C112 ± δC112 103· cm6· mol-2 4.9 ± 0.2 7.0 ± 0.2 6.4 ± 0.6

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 9.3 ± 0.9 88-jae/aud 293.15 7.8 ± 0.8 88-jae/aud 300.00 8.3 ± 0.3 89-bru/hwa 313.15 7.4 ± 0.7 88-jae/aud

T K 320.00 320.00 333.15

C122 ± δC122 103· cm6· mol-2 7.2 ± 0.2 5.0 ± 0.2 8.0 ± 0.8

___________

___________

__________________________________________________________

__________________________________________________________

Carbon dioxide Ethanol

Landolt-Börnstein New Series IV/21B

______________________________________________

___________

[124-38-9] [64-17-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 298.15 -307 ± 6 73-gup/les 313.20 -303 ± 20 66-sie/van 323.15 -238 ± 3 73-gup/les ___________

___________

T K 348.15 353.20

89-ngu/igl 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 89-bru/hwa 92-web 92-web 92-web 92-web 92-web 92-web 92-web 92-web 92-web 92-web

Ref.

__________________________________________________________

89-bru/hwa 92-web 88-jae/aud

Ref.

__________________________________________________________

CO2 C2H6O

___________

Ref.

___________________________________________________________

89-bru/hwa 92-web 88-jae/aud

MW = 44.01 MW = 46.07

B12 ± δB12 cm3· mol-1 -196 ± 3 -95 ± 70

158

Ref.

______________________________________________

73-gup/les 71-vig/sem-1

91

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Propene

[124-38-9] [115-07-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -175.9 ± 1.4 81-ohg/miz ___________

______________________________________________

Carbon dioxide Propanone

______________________________________________

Carbon dioxide Propane

T K 398.15 ___________

[124-38-9] [67-64-1]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 260.15 -966 ± 130 81-hic/pra 283.15 -531 ± 65 81-hic/pra ___________

CO2 C3H6

B12 ± δB12 cm3· mol-1 -94.8 ± 0.5

T K 313.20 353.20 ___________

B12 ± δB12 cm3· mol-1 -342 ± 20 -129 ± 70

CO2 C3H8

T K 313.15 333.15

C112 ± δC112 103· cm6· mol-2 7.7 ± 0.8 7.4 ± 0.8

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 8.4 ± 0.8 88-jae/aud 293.15 11.0 ± 1.1 88-jae/aud

T K 313.15 333.15

C122 ± δC122 103· cm6· mol-2 12.5 ± 1.3 12.7 ± 1.3

___________

___________

Landolt-Börnstein New Series IV/21B

__________________________________________________________

__________________________________________________________

___________

___________

160

Ref. 66-sie/van 71-vig/sem-1

MW = 44.01 MW = 44.10

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 K 103· cm6· mol-2 273.15 6.7 ± 0.8 88-jae/aud 293.15 7.5 ± 0.8 88-jae/aud

___________

82-ohg/nak-1

______________________________________________

B12 ± δB12 cm3· mol-1 -99.0 ± 20.0 -161.8 ± 5.2 -162.9 ± 5.3 -159.0 ± 5.2 -151.8 ± 5.0 -152.2 ± 5.0 -145.6 ± 14.0

______________________________________________

Ref.

MW = 44.01 MW = 58.08

T K 313.20 313.24 313.25 313.28 323.15 323.18 333.15

___________

159

______________________________________________

CO2 C3H6O

[124-38-9] [74-98-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 273.15 -224.4 ± 20.0 88-jae/aud 288.70 -183.1 ± 5.0 61-mas/eak 293.15 -192.2 ± 18.0 88-jae/aud 300.50 -159.3 ± 6.4 76-bou/jad 303.26 -168.9 ± 5.4 90-mce/kee 303.33 -168.2 ± 5.4 90-mce/kee 313.07 -157.8 ± 5.2 90-mce/kee 313.15 -165.9 ± 16.0 88-jae/aud

MW = 44.01 MW = 42.08

161

Ref.

______________________________________________

66-sie/van 90-mce/kee 90-mce/kee 90-mce/kee 90-mce/kee 90-mce/kee 88-jae/aud

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

92

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 2-Propanol

[124-38-9] [67-63-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -127 ± 70 71-vig/sem-1 ___________

[124-38-9] [106-99-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.20 -155 ± 20 66-sie/van ___________

T K

Carbon dioxide Butanone

[124-38-9] [78-93-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -184 ± 70 71-vig/sem-1 ___________

Carbon dioxide 1,4-Dioxane

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -136 ± 30 71-vig/sem-1 373.20 -301 ± 30 99-wor/joh 383.20 -278 ± 30 99-wor/joh 393.20 -269 ± 30 99-wor/joh ___________

______________________________________________

Carbon dioxide Butane

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 403.20 413.20 423.20 433.20

T K 313.15 313.20 333.15

Ref.

MW = 44.01 MW = 88.11

B12 ± δB12 cm3· mol-1 -254 ± 30 -236 ± 30 -229 ± 30 -218 ± 30

165

Ref.

______________________________________________

CO2 C4H10

___________

164

______________________________________________

CO2 C4H8O2

___________

Ref.

MW = 44.01 MW = 72.11

B12 ± δB12 cm3· mol-1

T K

[124-38-9] [106-97-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 273.15 -279.6 ± 8.0 88-jae/aud 288.70 -232.8 ± 5.0 61-mas/eak 293.15 -235.4 ± 7.0 88-jae/aud

B12 ± δB12 cm3· mol-1

163

______________________________________________

CO2 C4H8O

[124-38-9] [123-91-1]

Ref.

MW = 44.01 MW = 54.09

___________

______________________________________________

162

______________________________________________

CO2 C4H6

___________

______________________________________________

MW = 44.01 MW = 60.10

B12 ± δB12 cm3· mol-1

T K

___________

______________________________________________

Carbon dioxide 1,3-Butadiene

CO2 C3H8O

99-wor/joh 99-wor/joh 99-wor/joh 99-wor/joh

MW = 44.01 MW = 58.12

B12 ± δB12 cm3· mol-1 -201.1 ± 6.0 -153.0 ± 20.0 -176.8 ± 5.0

Ref.

______________________________________________

88-jae/aud 66-sie/van 88-jae/aud

166

93

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Diethyl ether

[124-38-9] [60-29-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -491 ± 23 73-mas/kin ___________

T K

___________

______________________________________________

Carbon dioxide 1-Butanol

[124-38-9] [71-36-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -414 ± 14 73-mas/kin ___________

T K

[124-38-9] [110-86-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -207 ± 70 71-vig/sem-1 ___________

Carbon dioxide Cyclopentane

Carbon dioxide Pentane

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 273.15 -322.8 ± 10.0 88-jae/aud 293.15 -269.8 ± 8.0 88-jae/aud 298.15 -273.0 ± 23.0 73-mas/kin 298.20 -173.0 ± 30.0 62-des/gol ___________

Landolt-Börnstein New Series IV/21B

______________________________________________

170

Ref.

______________________________________________

CO2 C5H12

T K 313.15 313.20 333.15 353.20

169

Ref.

MW = 44.01 MW = 70.13 B12 ± δB12 cm3· mol-1

T K

___________

Ref.

MW = 44.01 MW = 79.10

B12 ± δB12 cm3· mol-1

CO2 C5H10

[124-38-9] [109-66-0]

168

______________________________________________

___________

______________________________________________

Ref.

MW = 44.01 MW = 74.12

B12 ± δB12 cm3· mol-1

CO2 C5H5N

[124-38-9] [287-92-3]

167

______________________________________________

T K

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -197 ± 30 62-des/gol ___________

B12 ± δB12 cm3· mol-1

___________

______________________________________________

MW = 44.01 MW = 74.12

______________________________________________

CO2 C4H10O

___________

______________________________________________

Carbon dioxide Pyridine

CO2 C4H10O

MW = 44.01 MW = 72.15

B12 ± δB12 cm3· mol-1 -226.5 ± 7.0 -198.0 ± 20.0 -192.9 ± 6.0 -76.0 ± 70.0

171

Ref.

______________________________________________

88-jae/aud 66-sie/van 88-jae/aud 71-vig/sem-1

94

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 2-Methylbutane

[124-38-9] [78-78-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -163 ± 30 62-des/gol ___________

[124-38-9] [71-43-2]

MW = 44.01 MW = 72.15 B12 ± δB12 cm3· mol-1

T K

___________

______________________________________________

Carbon dioxide Benzene

CO2 C5H12

172

Ref.

______________________________________________

CO2 C6H6

MW = 44.01 MW = 78.11

173

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3·mol-1 = −1.7625 · 10 − 8.5149 · 104/(T/K) T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -301.5 ± 50 -260.9 ± 35

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -230.5 ± 20 -206.8 ± 15

T/K 500 575

(B12 ± 2σest)/cm3· mol-1 -187.9 ± 15 -165.7 ± 20

(B 12 - B 12calc)/cm3·mol-1

150 100 50 0 -50 -100 250

300

350

400

450

500

550

600

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

95

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Benzene (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.20 -251 ± 30 52.2 62-des/gol (♦) 313.20 -288 ± 20 1.5 66-sie/van („) 323.20 -250 ± 15 31.1 68-cru/gai (∆) 345.50 -311 ± 25 -46.9 92-wor/hod (×) 353.20 -216 ± 70 42.7 71-vig/sem-1 ({) 368.00 -290 ± 25 -41.0 92-wor/hod (×) 382.60 -283 ± 20 -42.8 92-wor/hod (×) 398.60 -256 ± 20 -24.8 92-wor/hod (×) _________

______________________________________

_____________________________________

Carbon dioxide Cyclohexane

T K 423.20 448.20 473.20 498.20 523.20 548.20 573.20 _________

[124-38-9] [110-82-7]

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -232 ± 15 -13.2 -213 ± 15 -5.4 -196 ± 15 1.6 -182 ± 15 6.5 -170 ± 15 10.4 -160 ± 20 12.9 -151 ± 20 15.2 ______________________________________

_____________________________________

CO2 C6H12

Ref. (Symbol in Fig. 1) 92-wor/hod (×) 92-wor/hod (×) 92-wor/hod (×) 92-wor/hod (×) 92-wor/hod (×) 92-wor/hod (×) 92-wor/hod (×)

MW = 44.01 MW = 84.16

174

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 1.9488 ⋅ 102 + 3.9274 ⋅ 105/(T/K) − 2.4825 ⋅ 108/(T/K)2 + 3.8182 ⋅ 1010/(T/K)3 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -230.0 ± 30 -208.8 ± 20

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -168.0 ± 20 -129.1 ± 20

T/K 500 550

(B12 ± 2σest)/cm3· mol-1 -97.0 ± 20 -72.0 ± 20

120

(B 12 - B 12calc)/cm3·mol-1

100 80 60 40 20 0 -20 -40 275

300

325

350

375

400

425

450

475

500

525

550

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) cont. Landolt-Börnstein New Series IV/21B

96

2 Mixtures Containing an Inorganic Compound

Carbon dioxide + Cyclohexane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.20 -236 ± 30 62-des/gol (♦) -6.3 345.50 -218 ± 15 92-wor/hod (∆) -6.0 353.20 -163 ± 70 71-vig/sem-1(„) 43.4 368.00 -198 ± 15 92-wor/hod (∆) -3.4 382.60 -181 ± 15 92-wor/hod (∆) 1.5 398.60 -174 ± 20 92-wor/hod (∆) -4.8 _________

______________________________________

_____________________________________

Carbon dioxide Methylcyclopentane

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 423.20 -155 ± 25 -5.8 448.20 -143 ± 25 -12.7 473.20 -114 ± 20 -0.8 498.20 -96 ± 15 2.0 523.20 -92 ± 15 -7.5 548.20 -72 ± 20 0.8 _________

[124-38-9] [96-37-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -234 ± 30 62-des/gol ___________

Carbon dioxide Butyl ethanoate

T K

[124-38-9] [123-86-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -260 ± 70 71-vig/sem-1 ___________

[124-38-9] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -233 ± 30 62-des/gol ___________

______________________________________________

Carbon dioxide 2-Methylpentane

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 353.2 ___________

B12 ± δB12 cm3· mol-1

T K

175

Ref.

MW = 44.01 MW = 116.16

B12 ± δB12 cm3· mol-1

176

Ref.

______________________________________________

MW = 44.01 MW = 86.18

B12 ± δB12 cm3· mol-1 -147 ± 70

177

Ref.

______________________________________________

CO2 C6H14

___________

Ref. (Symbol in Fig. 1) 92-wor/hod (∆) 92-wor/hod (∆) 92-wor/hod (∆) 92-wor/hod (∆) 92-wor/hod (∆) 92-wor/hod (∆)

______________________________________________

CO2 C6H14

[124-38-9] [107-83-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -206 ± 30 62-des/gol ___________

T K

_____________________________________

MW = 44.01 MW = 84.16

CO2 C6H12O2

___________

______________________________________________

Carbon dioxide Hexane

CO2 C6H12

___________

______________________________________________

______________________________________

71-vig/sem-1

MW = 44.01 MW = 86.18 B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

178

97

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 3-Methylpentane

[124-38-9] [96-14-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -211 ± 30 62-des/gol ___________

[124-38-9] [75-83-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -168 ± 30 62-des/gol ___________

Carbon dioxide 2,3-Dimethylbutane

Carbon dioxide Diisopropyl ether

[124-38-9] [108-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 258.15 -903 ± 240 81-hic/pra 273.15 -610 ± 160 81-hic/pra ___________

______________________________________________

Carbon dioxide 2-Methyl-1-pentanol

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 298.15 323.15 ___________

B12 ± δB12 cm3· mol-1

T K 403.15

181

Ref.

______________________________________________

MW = 44.01 MW = 102.18

B12 ± δB12 cm3· mol-1 -402 ± 54 -223 ± 75

182

Ref.

______________________________________________

CO2 C6H14O

___________

Ref.

MW = 44.01 MW = 86.18

CO2 C6H14O

[124-38-9] [105-30-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 348.15 -338.9 ± 20 94-lee/che ___________

T K

180

______________________________________________

CO2 C6H14

___________

______________________________________________

Ref.

MW = 44.01 MW = 86.18 B12 ± δB12 cm3· mol-1

T K

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -203 ± 30 62-des/gol ___________

CO2 C6H14

[124-38-9] [79-29-8]

179

_ _____________________________________________

___________

______________________________________________

MW = 44.01 MW = 86.18 B12 ± δB12 cm3· mol-1

T K

___________

______________________________________________

Carbon dioxide 2,2-Dimethylbutane

CO2 C6H14

81-hic/pra 81-hic/pra

MW = 44.01 MW = 102.18

B12 ± δB12 cm3· mol-1 -249.7 ± 15

Ref.

______________________________________________

94-lee/che

183

98

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Toluene

[124-38-9] [108-88-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 241.80 -655 ± 50 93-sch/lan 262.00 -529 ± 40 93-sch/lan 282.90 -475 ± 30 93-sch/lan 323.15 -254 ± 8 59-pra/ben ___________

______________________________________________

Carbon dioxide Heptane

______________________________________________

Carbon dioxide 2-Methylhexane

T K 348.15 353.20 353.20 ___________

[124-38-9] [142-82-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 298.20 -294 ± 30 62-des/gol ___________

Carbon dioxide 3-Methylhexane

______________________________________________

Carbon dioxide 2,2-Dimethylpentane

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

59-pra/ben 71-vig/sem 71-vig/sem-1

MW = 44.01 MW = 100.20

B12 ± δB12 cm3· mol-1 -177 ± 70

185

Ref. 71-vig/sem-1

MW = 44.01 MW = 100.20 B12 ± δB12 cm3· mol-1

186

Ref.

______________________________________________

MW = 44.01 MW = 100.20 B12 ± δB12 cm3· mol-1

187

Ref.

______________________________________________

CO2 C7H16

___________

Ref.

______________________________________________

CO2 C7H16

[124-38-9] [590-35-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -245 ± 30 62-des/gol

B12 ± δB12 cm3· mol-1 -215 ± 9 -248 ± 70 -235 ± 70

184

______________________________________________

CO2 C7H16

[124-38-9] [589-34-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -276 ± 30 62-des/gol ___________

___________

[124-38-9] [591-76-4]

______________________________________________

MW = 44.01 MW = 92.14

CO2 C7H16

T K 353.20

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -272 ± 30 62-des/gol ___________

CO2 C7H8

MW = 44.01 MW = 100.20 B12 ± δB12 cm3· mol-1

_____________________________________________

Ref.

188

99

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 2,3-Dimethylpentane

[124-38-9] [565-59-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -264 ± 30 62-des/gol ___________

______________________________________________

Carbon dioxide 2,4-Dimethylpentane

______________________________________________

Carbon dioxide 3,3-Dimethylpentane

______________________________________________

Carbon dioxide 3-Ethylpentane

______________________________________________

Carbon dioxide 2,2,3-Trimethylbutane

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 44.01 MW = 100.20

B12 ± δB12 cm3· mol-1

190

Ref.

MW = 44.01 MW = 100.20

B12 ± δB12 cm3· mol-1

191

Ref.

______________________________________________

MW = 44.01 MW = 100.20

B12 ± δB12 cm3· mol-1

192

Ref.

______________________________________________

CO2 C7H16

___________

189

______________________________________________

CO2 C7H16

[124-38-9] [464-06-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -222 ± 30 62-des/gol

B12 ± δB12 cm3· mol-1

CO2 C7H16

[124-38-9] [617-78-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -292 ± 30 62-des/gol ___________

T K

___________

MW = 44.01 MW = 100.20

______________________________________________

CO2 C7H16

[124-38-9] [562-49-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -249 ± 30 62-des/gol ___________

T K

___________

[124-38-9] [108-08-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -242 ± 30 62-des/gol ___________

CO2 C7H16

MW = 44.01 MW = 100.20

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

193

100

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Styrene

[124-38-9] [100-42-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -300 ± 70 71-vig/sem-1 ___________

______________________________________________

Carbon dioxide Ethylbenzene

______________________________________________

Carbon dioxide 1,2-Dimethylbenzene

______________________________________________

Carbon dioxide 1,3-Dimethylbenzene

______________________________________________

Carbon dioxide 1,4-Dimethylbenzene

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 44.01 MW = 106.17

B12 ± δB12 cm3· mol-1

195

Ref.

MW = 44.01 MW = 106.17

B12 ± δB12 cm3· mol-1

196

Ref.

______________________________________________

MW = 44.01 MW = 106.17

B12 ± δB12 cm3· mol-1

197

Ref.

______________________________________________

CO2 C8H10

___________

194

______________________________________________

CO2 C8H10

[124-38-9] [106-42-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -284 ± 70 71-vig/sem-1

B12 ± δB12 cm3· mol-1

CO2 C8H10

[124-38-9] [108-38-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -282 ± 70 71-vig/sem-1 ___________

T K

___________

MW = 44.01 MW = 104.15

______________________________________________

CO2 C8H10

[124-38-9] [95-47-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -289 ± 70 71-vig/sem-1 ___________

T K

___________

[124-38-9] [100-41-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -271 ± 70 71-vig/sem-1 ___________

CO2 C8H8

MW = 44.01 MW = 106.17

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

198

101

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Octane

[124-38-9] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -227 ± 70 71-vig/sem-1 ___________

T K

___________

______________________________________________

Carbon dioxide 2,2,4-Trimethylpentane

[124-38-9] [540-84-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -303 ± 8 59-pra/ben 348.15 -252 ± 9 59-pra/ben ___________

______________________________________________

Carbon dioxide 1-Octanol

______________________________________________

Carbon dioxide Propylbenzene

T K 353.20 ___________

___________

Carbon dioxide 1-Methylethylbenzene

Landolt-Börnstein New Series IV/21B

_

_____________________________________________

MW = 44.01 MW = 114.23

B12 ± δB12 cm3· mol-1 -147 ± 70

200

Ref. 71-vig/sem-1

MW = 44.01 MW = 130.23

B12 ± δB12 cm3· mol-1 -211.0 ± 10.0

201

Ref.

______________________________________________

94-lee/che

MW = 44.01 MW = 120.19 B12 ± δB12 cm3· mol-1

T K

202

Ref.

______________________________________________

CO2 C9H12 T K

Ref.

______________________________________________

___________

___________

199

_____________________________________________

CO2 C9H12

[124-38-9] [98-82-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -286 ± 70 71-vig/sem-1 ___________

___________

[124-38-9] [103-65-1]

______________________________________________

B12 ± δB12 cm3· mol-1

_

CO2 C8H18O

T K 453.15

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -292 ± 70 71-vig/sem-1

MW = 44.01 MW = 114.23

CO2 C8H18

[124-38-9] [111-87-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 348.15 -468.7 ± 35.0 94-lee/che 403.15 -309.6 ± 15.0 94-lee/che ___________

CO2 C8H18

MW = 44.01 MW = 120.19 B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

203

102

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 1-Ethyl-2-methylbenzene

[124-38-9] [611-14-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -310 ± 70 71-vig/sem-1 ___________

______________________________________________

Carbon dioxide 1-Ethyl-3-methylbenzene

______________________________________________

Carbon dioxide 1,2,3-Trimethylbenzene

______________________________________________

Carbon dioxide 1,2,4-Trimethylbenzene

______________________________________________

Carbon dioxide 1,3,5-Trimethylbenzene

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 44.01 MW = 120.19

B12 ± δB12 cm3· mol-1

205

Ref.

MW = 44.01 MW = 120.19

B12 ± δB12 cm3· mol-1

206

Ref.

______________________________________________

MW = 44.01 MW = 120.19

B12 ± δB12 cm3· mol-1

207

Ref.

______________________________________________

CO2 C9H12

___________

204

______________________________________________

CO2 C9H12

[124-38-9] [108-67-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -325 ± 70 71-vig/sem-1

B12 ± δB12 cm3· mol-1

CO2 C9H12

[124-38-9] [95-63-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -340 ± 70 71-vig/sem-1 ___________

T K

___________

MW = 44.01 MW = 120.19

______________________________________________

CO2 C9H12

[124-38-9] [526-73-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -335 ± 70 71-vig/sem-1 ___________

T K

___________

[124-38-9] [620-14-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -309 ± 70 71-vig/sem-1 ___________

CO2 C9H12

MW = 44.01 MW = 120.19

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

208

103

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Nonane

[124-38-9] [111-84-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -249 ± 70 71-vig/sem-1 ___________

[124-38-9] [91-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 297.00 -573 ± 12 66-naj/kin 299.00 -552 ± 11 66-naj/kin 309.00 -501 ± 16 66-naj/kin 323.50 -401 ± 15 66-naj/kin 328.00 -389 ± 13 66-naj/kin ___________

T K

___________

______________________________________________

Carbon dioxide Naphthalene

______________________________________________

Carbon dioxide Butylbenzene

[124-38-9] [104-51-8]

______________________________________________

Carbon dioxide (1-Methylpropyl)benzene

______________________________________________

Carbon dioxide 1-Methyl-2-propylbenzene

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

___________

209

Ref.

MW = 44.01 MW = 128.17

B12 ± δB12 cm3· mol-1 -361 ± 13 -345 ± 13 -346 ± 13 -311 ± 13

210

Ref.

______________________________________________

66-naj/kin 66-naj/kin 66-naj/kin 66-naj/kin

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

211

Ref.

______________________________________________

CO2 C10H14

[124-38-9] [1074-17-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -327 ± 70 71-vig/sem-1

B12 ± δB12 cm3· mol-1

CO2 C10H14

[124-38-9] [135-98-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -312 ± 70 71-vig/sem-1 ___________

___________

MW = 44.01 MW = 128.26

______________________________________________

CO2 C10H8

T K 332.00 333.00 337.00 346.00

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -345 ± 70 71-vig/sem-1 ___________

CO2 C9H20

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

212

Ref.

______________________________________________

CO2 C10H14

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

213

104

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 1-Methyl-2-(1-methylethyl)benzene

[124-38-9] [527-84-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -329 ± 70 71-vig/sem-1 ___________

______________________________________________

Carbon dioxide 1-Methyl-3-propylbenzene

______________________________________________

Carbon dioxide 1-Methyl-4-propylbenzene

______________________________________________

Carbon dioxide 1,4-Diethylbenzene

______________________________________________

Carbon dioxide 1-Ethyl-2,4-dimethylbenzene

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

B12 ± δB12 cm3· mol-1

CO2 C10H14

T K

214

Ref.

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

215

Ref.

______________________________________________

CO2 C10H14

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

216

Ref.

______________________________________________

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

217

Ref.

______________________________________________

CO2 C10H14

___________

MW = 44.01 MW = 134.22

______________________________________________

CO2 C10H14

[124-38-9] [874-41-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -350 ± 70 71-vig/sem-1 ___________

T K

___________

[124-38-9] [105-05-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -342 ± 70 71-vig/sem-1 ___________

T K

___________

[124-38-9] [1074-55-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -318 ± 70 71-vig/sem-1 ___________

T K

___________

[124-38-9] [1074-43-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -328 ± 70 71-vig/sem-1 ___________

CO2 C10H14

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

218

105

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 1-Ethyl-2,3-dimethylbenzene

[124-38-9] [933-98-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -349 ± 70 71-vig/sem-1 ___________

______________________________________________

Carbon dioxide 1-Ethyl-2,5-dimethylbenzene

______________________________________________

Carbon dioxide 1-Ethyl-2,6-dimethylbenzene

______________________________________________

Carbon dioxide 1-Ethyl-3,4-dimethylbenzene

______________________________________________

Carbon dioxide 1-Ethyl-3,5-dimethylbenzene

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

B12 ± δB12 cm3· mol-1

CO2 C10H14

T K

219

Ref.

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

220

Ref.

______________________________________________

CO2 C10H14

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

221

Ref.

______________________________________________

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

222

Ref.

______________________________________________

CO2 C10H14

___________

MW = 44.01 MW = 134.22

______________________________________________

CO2 C10H14

[124-38-9] [934-74-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -348 ± 70 71-vig/sem-1 ___________

T K

___________

[124-38-9] [934-80-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -354 ± 70 71-vig/sem-1 ___________

T K

___________

[124-38-9] [2870-04-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -352 ± 70 71-vig/sem-1 ___________

T K

___________

[124-38-9] [1758-88-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -348 ± 70 71-vig/sem-1 ___________

CO2 C10H14

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

223

106

2 Mixtures Containing an Inorganic Compound

Carbon dioxide 1,2,3,4-Tetramethylbenzene

[124-38-9] [488-23-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -386 ± 70 71-vig/sem-1 ___________

T K

___________

______________________________________________

Carbon dioxide 1,2,3,5-Tetramethylbenzene

[124-38-9] [527-53-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -380 ± 70 71-vig/sem-1 ___________

T K

[124-38-9] [95-93-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -376 ± 70 71-vig/sem-1 ___________

Carbon dioxide Decane

___________

______________________________________________

Carbon dioxide 1-Decanol

Landolt-Börnstein New Series IV/21B

T K 348.15 ___________

______________________________________________

T K 453.15

Ref.

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

225

Ref.

MW = 44.01 MW = 134.22

B12 ± δB12 cm3· mol-1

226

Ref.

______________________________________________

MW = 44.01 MW = 142.28

B12 ± δB12 cm3· mol-1 -321 ± 8

227

Ref.

______________________________________________

CO2 C10H22O

___________

224

______________________________________________

CO2 C10H22

[124-38-9] [112-30-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 348.15 -431.1 ± 40 94-lee/che 403.15 -398.8 ± 40 94-lee/che ___________

T K

[124-38-9] [124-18-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -417 ± 7 59-pra/ben

B12 ± δB12 cm3· mol-1

CO2 C10H14

___________

______________________________________________

MW = 44.01 MW = 134.22

______________________________________________

CO2 C10H14

___________

______________________________________________

Carbon dioxide 1,2,4,5-Tetramethylbenzene

CO2 C10H14

59-pra/ben

MW = 44.01 MW = 158.28

B12 ± δB12 cm3· mol-1 -261.9 ± 30

Ref.

______________________________________________

94-lee/che

228

107

2 Mixtures Containing an Inorganic Compound

Carbon dioxide Anthracene

[124-38-9] [120-12-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 338.00 -540 ± 12 70-naj/kin 348.00 -520 ± 12 70-naj/kin 350.00 -498 ± 12 70-naj/kin 355.00 -466 ± 12 70-naj/kin 365.00 -443 ± 12 70-naj/kin 378.00 -395 ± 12 70-naj/kin ___________

______________________________________________

Carbon dioxide Phenanthrene

______________________________________________

Carbon disulfide Chloromethane

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 348.00 350.00 355.00 356.00 362.00 366.00 368.00 381.00 398.00 414.00 ___________

B12 ± δB12 cm3· mol-1 -361 ± 12 -352 ± 12 -337 ± 12 -309 ± 12 -273 ± 12

T K 377.43 402.43 430.01

229

Ref. 70-naj/kin 70-naj/kin 70-naj/kin 70-naj/kin 70-naj/kin

MW = 44.01 MW = 178.23

B12 ± δB12 cm3· mol-1 -512 ± 12 -502 ± 12 -448 ± 12 -454 ± 12 -439 ± 12 -452 ± 12 -405 ± 12 -406 ± 12 -358 ± 12 -306 ± 12

230

Ref.

------___________________________________________

CS2 CH3Cl

___________

MW = 44.01 MW = 178.23

______________________________________________

CO2 C14H10

[75-15-0] [74-87-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 323.15 -355 ± 25 67-bot/spu 325.85 -346 ± 25 67-bot/spu 349.56 -318 ± 25 67-bot/spu ___________

T K 399.00 407.00 419.00 423.00 449.00 ___________

[124-38-9] [85-01-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 312.00 -709 ± 12 70-bra/kin 316.00 -686 ± 12 70-bra/kin 319.00 -675 ± 12 70-bra/kin 321.00 -694 ± 12 70-bra/kin 328.00 -610 ± 12 70-bra/kin 330.00 -625 ± 12 70-bra/kin 334.00 -628 ± 12 70-bra/kin 336.00 -598 ± 12 70-bra/kin 338.00 -563 ± 12 70-bra/kin 343.00 -562 ± 12 70-bra/kin 346.00 -546 ± 12 70-bra/kin ___________

CO2 C14H10

70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin

MW = 76.14 MW = 50.49

B12 ± δB12 cm3· mol-1 -263 ± 25 -225 ± 25 -171 ± 25

Ref.

______________________________________________

67-bot/spu 67-bot/spu 67-bot/spu

231

108

2 Mixtures Containing an Inorganic Compound

Carbon disulfide Propanone

[75-15-0] [67-64-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -606 ± 25 67-bot/spu 324.84 -600 ± 25 67-bot/spu 349.85 -493 ± 25 67-bot/spu ___________

______________________________________________

Hydrogen chloride Krypton

____________________________________________

Hydrogen chloride Propane

T K 368.70 ___________

[7647-01-0] [74-98-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 368.70 -85.0 ± 4.3 33-glo/ful ___________

T K 378.84 407.38 432.09 ___________

[7647-01-0] [7439-90-9]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 328.70 -21.7 ± 10.0 33-glo/roe ___________

CS2 C3H6O

______________________________________________

Sulfur hexafluoride Helium

T K 389.50 ___________

[2551-62-4] [7440-59-7]

MW = 76.14 MW = 58.08

B12 ± δB12 cm3· mol-1 -406 ± 25 -363 ± 25 -326 ± 25

232

Ref.

______________________________________________

ClH Kr

67-bot/spu 67-bot/spu 67-bot/spu

MW = 36.46 MW = 83.80

B12 ± δB12 cm3· mol-1 -11.4 ± 0.6

233

Ref.

______________________________________________

ClH C3H8

33-glo/roe

MW = 36.46 MW = 44.10

B12 ± δB12 cm3· mol-1 -66.0 ± 3.3

234

Ref.

______________________________________________

F6S He

33-glo/ful

MW = 146.06 MW = 4.00

235

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.0943 ⋅ 102 − 3.5853 ⋅ 104/(T/K) + 3.7473 ⋅ 106/(T/K)2 T/K 200 250

(B12 ± 2σest)/cm3· mol-1 23.8 ± 5 26.0 ± 5

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 31.6 ± 2 37.6 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 198.00 21.6 ± 8.0 -2.3 86-eli/hoa (▲) 203.00 23.5 ± 8.0 -0.2 86-eli/hoa (▲) 213.00 26.5 ± 8.0 2.8 86-eli/hoa (▲) 253.00 28.5 ± 6.0 2.2 86-eli/hoa (▲) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T K 273.00 290.00 290.00 292.90 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 28.3 ± 6.0 -0.1 30.5 ± 2.0 0.1 30.6 ± 2.0 0.2 31.1 ± 2.0 0.4 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 86-eli/hoa (▲) 82-mar/tre-1(„) 82-mar/tre-1(„) 81-bel/dun (×) cont.

109

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride + Helium (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 296.20 28.7 ± 6.0 -2.4 300.00 31.1 ± 2.0 -0.5 300.00 30.9 ± 2.0 -0.7 303.20 31.4 ± 2.0 -0.5

(B 12 - B 12calc)/cm 3·mol -1

_________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 86-eli/hoa (▲) 82-mar/tre-1(„) 82-mar/tre-1(„) 81-bel/dun (×)

T K 313.50 320.00 320.00 320.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 32.9 ± 2.0 -0.3 34.4 ± 2.0 0.4 34.4 ± 2.0 0.4 34.3 ± 2.0 0.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-bel/dun (×) 81-bel/dun (×) 82-mar/tre-1(„) 82-mar/tre-1(„)

15 10 5 0 -5 -10 -15 175

195

215

235

255

275

295

315

335

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 174.8 ± 0.2 82-mar/tre-1 292.90 0.500 171.3 ± 0.3 81-bel/dun 300.00 0.500 163.8 ± 0.2 82-mar/tre-1 300.00 0.500 163.6 ± 0.2 82-mar/tre-1 303.20 0.500 160.6 ± 0.3 81-bel/dun 313.50 0.500 151.6 ± 0.3 81-bel/dun ___________

_______________________________________

Sulfur hexafluoride Krypton

T K 315.50 320.00 320.00 320.00 320.00 ___________

[2551-62-4] [7439-90-9]

x1

BE ± δBE cm3· mol-1 151.6 ± 0.3 146.4 ± 0.3 146.4 ± 0.2 146.8 ± 0.2 146.7 ± 0.2

Ref.

_______________________________________

0.500 0.500 0.500 0.500 0.500

F6S Kr

81-bel/dun 81-bel/dun 82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

MW = 146.06 MW = 83.80

236

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.9205 ⋅ 10 + 5.8005 ⋅ 103/(T/K) − 1.3564 ⋅ 107/(T/K)2 + 4.4465 ⋅ 108/(T/K)3 T/K 200 250

(B12 ± 2σest)/cm3· mol-1 -235.3 ± 20 -146.2 ± 20

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -95.7 ± 10 -64.6 ± 7

T/K 400 475

(B12 ± 2σest)/cm3· mol-1 -44.1 ± 4 -24.6 ± 4 cont.

Landolt-Börnstein New Series IV/21B

110

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride + Krypton (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 201.00 -248.0 ± 10.0 -15.1 84-sch/eli (▲) 223.00 -197.0 ± 6.0 -9.6 84-sch/eli (▲) 248.00 -159.0 ± 4.0 -10.2 84-sch/eli (▲) 273.00 -130.0 ± 4.0 -10.3 84-sch/eli (▲) 273.20 -99.0 ± 3.0 20.5 76-san/uri-1(×) 283.20 -91.0 ± 3.0 18.9 76-san/uri-1(×) 290.00 -113.5 ± 2.0 -9.7 82-mar/tre-1(…) 290.00 -113.5 ± 2.0 -9.7 82-mar/tre-1(…) 293.20 -80.8 ± 3.0 20.4 76-san/uri-1(×) 296.20 -109.0 ± 2.0 -10.3 84-sch/eli (▲) 300.00 -104.6 ± 2.0 -8.9 82-mar/tre-1(…)

T K 300.00 303.20 313.20 320.00 320.00 323.20 330.00 365.00 400.00 430.00 465.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 64.1 ± 0.2 82-mar/tre-1 290.00 0.500 64.0 ± 0.2 82-mar/tre-1 300.00 0.500 59.2 ± 0.2 82-mar/tre-1

T K 300.00 320.00 320.00

_________

______________________________________

___________

_____________________________________

_______________________________________

_________

___________

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -104.6 ± 2.0 -8.9 82-mar/tre-1(…) -70.0 ± 3.0 23.3 76-san/uri-1(×) -64.1 ± 3.0 22.0 76-san/uri-1(×) -88.1 ± 2.0 -6.5 82-mar/tre-1(…) -88.1 ± 2.0 -6.5 82-mar/tre-1(…) -57.5 ± 3.0 22.0 76-san/uri-1(×) -83.0 ± 4.0 -7.6 84-sch/eli (▲) -62.0 ± 4.0 -4.4 84-sch/eli (▲) -47.0 ± 4.0 -2.9 84-sch/eli (▲) -38.0 ± 4.0 -2.9 84-sch/eli (▲) -30.0 ± 4.0 -3.4 84-sch/eli (▲) ______________________________________

x1

_____________________________________

BE ± δBE cm3· mol-1 59.2 ± 0.2 51.9 ± 0.2 51.9 ± 0.2

Ref.

_______________________________________

0.500 0.500 0.500

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

(B 12 - B 12 calc)/cm 3·mol -1

30 20 10 0 -10 -20 -30 200

250

300

350

400

450

500

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

111

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride Nitrogen

[2551-62-4] [7727-37-9]

F6S N2

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -67.4 ± 2.0 82-mar/tre-1 290.00 -67.0 ± 2.0 82-mar/tre-1 290.00 -67.2 ± 2.0 82-mar/tre-1 300.00 -61.1 ± 2.0 82-mar/tre-1

T K 300.00 320.00 320.00

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 290.00 0.500 85.5 ± 0.2 82-mar/tre-1 290.00 0.500 85.9 ± 0.2 82-mar/tre-1 290.00 0.500 85.7 ± 0.2 82-mar/tre-1 300.00 0.500 79.5 ± 0.2 82-mar/tre-1

T x1 K 300.00 0.500 320.00 0.500 320.00 0.500

___________

______________________________________________

___________

________________________________________

Sulfur hexafluoride Neon

___________

B12 ± δB12 cm3· mol-1 -61.2 ± 2.0 -49.0 ± 2.0 -48.7 ± 6.0

F6S Ne

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 7.3 ± 2.0 82-mar/tre-1 290.00 7.5 ± 2.0 82-mar/tre-1 300.00 9.8 ± 2.0 82-mar/tre-1

T K 300.00 320.00 320.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 152.0 ± 0.2 82-mar/tre-1 290.00 0.500 152.2 ± 0.2 82-mar/tre-1 300.00 0.500 142.6 ± 0.2 82-mar/tre-1

T x1 K 300.00 0.500 320.00 0.500 320.00 0.500

___________

______________________________________________

___________

________________________________________

Sulfur hexafluoride Oxygen

______________________________________________

T K 300.00 320.00 320.00 ___________

Ref. 82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

BE ± δBE cm3· mol-1 79.4 ± 0.2 69.8 ± 0.2 70.1 ± 0.2

Ref.

________________________________________

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

MW = 146.06 MW = 20.18

B12 ± δB12 cm3· mol-1 9.7 ± 2.0 15.1 ± 2.0 15.0 ± 2.0

238

Ref.

______________________________________________

___________

[2551-62-4] [7782-44-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 -73.1 ± 2.0 82-mar/tre-1 290.00 -73.1 ± 2.0 82-mar/tre-1 300.00 -66.7 ± 2.0 82-mar/tre-1 ___________

___________

237

______________________________________________

___________

[2551-62-4] [7440-01-9]

MW = 146.06 MW = 28.01

F6S O2

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

BE ± δBE cm3· mol-1 142.5 ± 0.2 127.3 ± 0.2 127.2 ± 0.2

Ref.

________________________________________

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

MW = 146.06 MW = 32.00

B12 ± δB12 cm3· mol-1 -66.8 ± 2.0 -53.8 ± 2.0 -53.9 ± 2.0

239

Ref.

______________________________________________

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

cont. Landolt-Börnstein New Series IV/21B

112

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride + Oxygen (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 85.4 ± 0.2 82-mar/tre-1 290.00 0.500 85.6 ± 0.2 82-mar/tre-1 300.00 0.500 79.6 ± 0.2 82-mar/tre-1 ___________

________________________________________

Sulfur hexafluoride Xenon

[2551-62-4] [7440-63-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -170.6 ± 2.0 82-mar/tre-1 290.00 -171.1 ± 2.0 82-mar/tre-1 290.00 -171.2 ± 2.0 82-mar/tre-1 300.00 -157.5 ± 2.0 82-mar/tre-1 ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 50.5 ± 0.2 82-mar/tre-1 290.00 0.500 51.0 ± 0.2 82-mar/tre-1 290.00 0.500 50.5 ± 0.2 82-mar/tre-1 300.00 0.500 47.5 ± 0.2 82-mar/tre-1 ___________

________________________________________

Sulfur hexafluoride Chlorotrifluoromethane

______________________________________________

Sulfur hexafluoride Tetrafluoromethane

T K 300.00 320.00 320.00 ___________

T K 300.00 320.00 320.00 ___________

Ref.

________________________________________

0.500 0.500 0.500

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

MW = 146.06 MW = 131.29

B12 ± δB12 cm3· mol-1 -157.7 ± 2.0 -133.0 ± 2.0 -133.1 ± 2.0

240

Ref.

_____________________________________________

BE ± δBE cm3· mol-1 47.3 ± 0.2 41.5 ± 0.2 41.4 ± 0.2

x1

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

Ref.

________________________________________

0.500 0.500 0.500

F6S CClF3

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

MW = 146.06 MW = 104.46

B12 ± δB12 cm3· mol-1

T K

___________

[2551-62-4] [75-73-0]

BE ± δBE cm3· mol-1 79.5 ± 0.2 70.2 ± 0.2 70.1 ± 0.2

x1

F6S Xe

[2551-62-4] [75-72-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -223.0 ± 6.7 71-nel/col ___________

T K 300.00 320.00 320.00 ___________

241

Ref.

______________________________________________

F6S CF4

MW = 146.06 MW = 88.00

242

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.0553 ⋅ 102 − 1.5386 ⋅ 105/(T/K) + 2.8371 ⋅ 107/(T/K)2 − 4.3780 ⋅ 109/(T/K)3 T/K 270 300

(B12 ± 2σest)/cm3· mol-1 -197.6 ± 3 -154.3 ± 3

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -104.6 ± 3 -70.2 ± 3

T/K 450

(B12 ± 2σest)/cm3· mol-1 -44.3 ± 3 cont. Landolt-Börnstein New Series IV/21B

113

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride + Tetrafluoromethane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 271.61 -193.2 ± 1.3 1.7 72-sig/sil (…) 290.00 -169.0 ± 0.9 -1.8 82-mar/tre-1(▲) 290.00 -169.0 ± 0.9 -1.8 82-mar/tre-1(▲) 300.00 -155.7 ± 0.9 -1.4 82-mar/tre-1(▲) 300.00 -155.8 ± 0.9 -1.5 82-mar/tre-1(▲) 308.12 -144.6 ± 0.7 0.0 72-sig/sil (…) 320.00 -131.0 ± 0.9 0.8 82-mar/tre-1(▲) _________

______________________________________

_____________________________________

T K 320.00 323.15 323.55 348.10 373.15 423.15

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -131.0 ± 0.9 0.8 -132.0 ± 2.0 -3.4 -125.4 ± 1.9 2.8 -104.1 ± 1.3 2.0 -88.1 ± 0.4 -0.8 -55.0 ± 2.2 2.4

Ref. (Symbol in Fig. 1) 82-mar/tre-1(▲) 71-dan/kno (×) 72-sig/sil (…) 72-sig/sil (…) 72-sig/sil (…) 72-sig/sil (…)

350

370

430

_________

______________________________________

_____________________________________

(B 12 - B 12calc)/cm3·mol-1

6 4 2 0 -2 -4 -6 250

270

290

310

330

390

410

450

T/K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 271.61 0.000 -339.3 ± 0.6 72-sig/sil 271.61 0.180 -288.5 ± 0.3 72-sig/sil 271.61 0.393 -235.3 ± 0.7 72-sig/sil 271.61 0.556 -194.2 ± 1.7 72-sig/sil 271.61 0.787 -150.8 ± 0.9 72-sig/sil 271.61 0.897 -131.3 ± 0.7 72-sig/sil 271.61 1.000 -112.3 ± 0.1 72-sig/sil 271.61 0.000 -339.2 ± 0.5 72-sig/sil 271.61 0.000 -339.1 ± 0.6 72-sig/sil 303.15 0.000 -266.1 ± 0.1 72-sig/sil 308.12 0.000 -255.8 ± 0.1 72-sig/sil ___________

Landolt-Börnstein New Series IV/21B

__________________________________________

T K 308.12 308.12 308.12 308.12 308.12 323.55 323.55 323.55 323.55 323.55 323.55 ___________

x2

Bm ± δBm cm3· mol-1 -200.0 ± 0.3 -184.6 ± 0.1 -131.7 ± 0.2 -88.9 ± 0.2 -81.8 ± 0.7 -230.9 ± 0.4 -190.0 ± 0.6 -162.9 ± 0.8 -124.4 ± 0.6 -96.2 ± 0.7 -71.0 ± 0.2

Ref.

__________________________________________

0.271 0.345 0.648 0.941 1.000 0.000 0.190 0.358 0.589 0.796 1.000

72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil cont.

114

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride + Tetrafluoromethane (cont.) Table 3. (cont.) T x2 K 323.55 0.000 323.55 1.000 348.10 0.000 348.10 0.191 348.10 0.365 348.10 0.582 348.10 0.798 348.10 1.000 348.10 0.000 348.10 1.000 373.15 0.000 ___________

Bm ± δBm cm3· mol-1 -229.5 ± 0.6 -70.6 ± 0.4 -193.5 ± 0.6 -161.1 ± 0.5 -135.0 ± 0.8 -104.0 ± 0.6 -77.2 ± 0.9 -56.2 ± 0.7 -195.5 ± 0.6 -57.4 ± 0.5 -163.1 ± 0.5

Ref.

T K 373.15 373.15 373.15 373.15 373.15 373.15 423.15 423.15 423.15 423.15 423.15 ___________

__________________________________________

72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.500 19.0 ± 1.0 71-dan/kno 290.00 0.500 28.5 ± 0.2 82-mar/tre-1 290.00 0.500 28.3 ± 0.2 82-mar/tre-1 300.00 0.500 26.2 ± 0.2 82-mar/tre-1

T K 300.00 320.00 320.00

Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 271.61 0.000 19.0 ± 0.2 72-sig/sil 271.61 0.180 16.8 ± 0.1 72-sig/sil 271.61 0.393 13.5 ± 0.1 72-sig/sil 271.61 0.556 12.6 ± 0.6 72-sig/sil 271.61 0.787 9.6 ± 0.2 72-sig/sil 271.61 0.897 8.6 ± 0.2 72-sig/sil 271.61 1.000 7.6 ± 0.0 72-sig/sil 271.61 0.000 18.4 ± 0.2 72-sig/sil 271.61 0.000 18.6 ± 0.2 72-sig/sil 303.15 0.000 19.3 ± 0.1 72-sig/sil 308.12 0.000 19.1 ± 0.0 72-sig/sil 308.12 0.271 13.6 ± 0.1 72-sig/sil 308.12 0.345 13.4 ± 0.0 72-sig/sil 308.12 0.648 9.3 ± 0.0 72-sig/sil 308.12 0.941 6.7 ± 0.0 72-sig/sil 308.12 1.000 6.9 ± 0.1 72-sig/sil 323.55 0.000 17.7 ± 0.2 72-sig/sil 323.55 0.190 15.4 ± 0.2 72-sig/sil 323.55 0.358 11.1 ± 0.2 72-sig/sil 323.55 0.589 8.0 ± 0.1 72-sig/sil 323.55 0.796 6.1 ± 0.1 72-sig/sil 323.55 1.000 5.4 ± 0.1 72-sig/sil 323.55 0.000 17.9 ± 0.1 72-sig/sil

T K 323.55 348.10 348.10 348.10 348.10 348.10 348.10 348.10 348.10 373.15 373.15 373.15 373.15 373.15 373.15 373.15 373.15 423.15 423.15 423.15 423.15 423.15

___________

___________

________________________________________

___________________________________________________________

___________

___________

x2

Bm ± δBm cm3· mol-1 -136.2 ± 0.7 -102.7 ± 0.5 -85.6 ± 0.3 -61.7 ± 0.8 -44.8 ± 0.8 -163.9 ± 0.6 -105.2 ± 0.7 -80.3 ± 0.3 -54.2 ± 2.4 -37.6 ± 1.4 -23.4 ± 0.6

Ref.

BE ± δBE cm3· mol-1 26.0 ± 0.2 23.0 ± 0.2 22.9 ± 0.2

Ref.

__________________________________________

0.188 0.446 0.590 0.808 1.000 0.000 0.076 0.305 0.580 0.834 1.000

x1

72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil

________________________________________

0.500 0.500 0.500

x2

Cm ± δCm 10 · cm6· mol-2 5.5 ± 0.1 15.3 ± 0.2 11.8 ± 0.1 9.6 ± 0.2 6.1 ± 0.1 5.2 ± 0.2 4.1 ± 0.2 15.5 ± 0.4 4.3 ± 0.2 12.0 ± 0.2 9.6 ± 0.3 6.5 ± 0.3 5.8 ± 0.2 4.8 ± 0.2 4.7 ± 0.2 12.2 ± 0.3 4.5 ± 0.2 9.5 ± 0.1 8.1 ± 0.1 3.6 ± 0.7 1.1 ± 0.7 4.4 ± 0.1

82-mar/tre-1 82-mar/tre-1 82-mar/tre-1

Ref.

___________________________________________________________

3

1.000 0.000 0.191 0.365 0.582 0.798 1.000 0.000 1.000 0.000 0.188 0.446 0.590 0.808 1.000 0.000 1.000 0.076 0.305 0.580 0.834 1.000

72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil 72-sig/sil

cont. Landolt-Börnstein New Series IV/21B

115

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride + Tetrafluoromethane (cont.) Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 271.61 14.5 ± 0.7 72-sig/sil 308.12 12.8 ± 1.0 72-sig/sil 323.55 12.4 ± 1.1 72-sig/sil

T K 348.10 373.15

C112 ± δC112 103· cm6· mol-2 8.8 ± 0.9 6..7 ± 0.5

Ref.

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 271.61 10.6 ± 0.8 72-sig/sil 308.12 8.2 ± 1.4 72-sig/sil 323.55 4.6 ± 0.9 72-sig/sil

T K 348.10 373.15

C122 ± δC122 103· cm6· mol-2 4.2 ± 0.9 4.5 ± 0.4

Ref.

___________

__________________________________________________________

___________

__________________________________________________________

Sulfur hexafluoride Methane

___________

___________

[2551-62-4] [74-82-8]

__________________________________________________________

72-sig/sil 72-sig/sil

__________________________________________________________

F6S CH4

72-sig/sil 72-sig/sil

MW = 146.06 MW = 16.04

243

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 4.1578 ⋅ 102 − 4.1781 ⋅ 105/(T/K) + 1.3698 ⋅ 108/(T/K)2 − 1.7166 ⋅ 1010/(T/K)3 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -90.7 ± 3 -60.1 ± 3

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -40.8 ± 3 -24.6 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 290.00 -99.0 ± 0.9 1.0 82-mar/tre-1(…) 290.00 -99.0 ± 0.9 1.0 82-mar/tre-1(…) 300.00 -91.8 ± 2.0 -1.1 74-bel/rei (×) 300.00 -91.0 ± 0.9 -0.3 82-mar/tre-1(…) 320.00 -79.0 ± 2.0 -3.0 74-bel/rei (×) 320.00 -75.0 ± 0.9 1.0 82-mar/tre-1(…) 320.00 -75.0 ± 0.9 1.0 82-mar/tre-1(…) 340.00 -68.3 ± 2.0 -3.4 74-bel/rei (×)

T K 370.00 400.00 430.00 460.00 490.00 520.00 550.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 73.4 ± 0.7 82-mar/tre-1 290.00 0.500 73.3 ± 0.7 82-mar/tre-1 300.00 0.500 67.8 ± 0.7 82-mar/tre-1

T K 320.00 320.00

_________

___________

______________________________________

_____________________________________

________________________________________

_________

___________

T/K 500 550

(B12 ± 2σest)/cm3· mol-1 -9.2 ± 3 5.8 ± 2

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -54.3 ± 2.0 -2.6 -41.3 ± 2.0 -0.5 -29.2 ± 2.0 1.7 -18.9 ± 2.0 2.6 -10.9 ± 2.0 1.4 -3.2 ± 2.0 0.0 5.5 ± 2.0 -0.3 ______________________________________

x1

_____________________________________

BE ± δBE cm3· mol-1 60.3 ± 0.6 60.3 ± 0.6

Ref. (Symbol in Fig. 1) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×)

Ref.

_______________________________________

0.500 0.500

82-mar/tre-1 82-mar/tre-1

cont. Landolt-Börnstein New Series IV/21B

116

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride + Methane (cont.)

(B 12 - B 12 calc)/cm 3·mol -1

6 4 2 0 -2 -4 -6 250

300

350

400

450

500

550

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Sulfur hexafluoride Tetramethylsilane

[2551-62-4] [75-76-3]

F6S C4H12Si

MW = 146.06 MW = 88.22

244

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 6.5668 ⋅ 10 + 1.3002 ⋅ 105/(T/K) − 9.7747 ⋅ 107/(T/K)2 + 7.5944 ⋅ 109/(T/K)3 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -437.1 ± 5 -315.0 ± 5

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -232.9 ± 5 -176.1 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 300.00 -438 ± 5 -0.9 74-bel/rei (×) 320.00 -380 ± 5 2.2 74-bel/rei (×) 340.00 -336 ± 5 -0.4 74-bel/rei (×) 370.00 -279 ± 5 -0.7 74-bel/rei (×) 400.00 -235 ± 5 -2.1 74-bel/rei (×) _________

______________________________________

_____________________________________

T K 430.00 460.00 490.00 520.00 550.00 _________

T/K 500 550

(B12 ± 2σest)/cm3· mol-1 -135.9 ± 5 -106.8 ± 5

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -195 ± 5 1.4 -165 ± 5 1.9 -143 ± 5 -0.1 -125 ± 5 -1.9 -106 ± 5 0.8 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×) 74-bel/rei (×)

cont. Landolt-Börnstein New Series IV/21B

117

2 Mixtures Containing an Inorganic Compound

Sulfur hexafluoride + Tetramethylsilane (cont.) 8

-1

2

(B 12 - B 12calc)/cm ·mol

4

3

6

0 -2 -4 -6 -8 250

300

350

400

450

500

550

600

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Sulfur hexafluoride 2,2-Dimethylpropane

[2551-62-4] [463-82-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 300.00 -409.4 ± 2.0 74-bel/rei 320.00 -355.4 ± 2.0 74-bel/rei 340.00 -316.3 ± 2.0 74-bel/rei 370.00 -257.0 ± 2.0 74-bel/rei 400.00 -221.8 ± 2.0 74-bel/rei ___________

______________________________________________

Hydrogen Water

[1333-74-0] [7732-18-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 373.20 -2.0 ± 6.0 83-smi/sel 373.20 -3.0 ± 6.0 88-wor/lan ___________

Landolt-Börnstein New Series IV/21B

T K 430.00 460.00 490.00 520.00 550.00 ___________

______________________________________________

T K 378.20 378.20 ___________

F6S C5H12

MW = 146.06 MW = 72.15

B12 ± δB12 cm3· mol-1 -186.5 ± 2.0 -160.1 ± 2.0 -141.0 ± 2.0 -119.1 ± 2.0 -96.5 ± 2.0

245

Ref.

______________________________________________

H2 H2O

74-bel/rei 74-bel/rei 74-bel/rei 74-bel/rei 74-bel/rei

MW = 2.02 MW = 18.02 B12 ± δB12 cm3· mol-1 1.0 ± 10.0 1.0 ± 10.0

246

Ref.

______________________________________________

83-smi/sel 88-wor/lan cont.

118

2 Mixtures Containing an Inorganic Compound

Hydrogen + Water (cont.) Table 2. (cont.) T B12 ± δB12 K cm3· mol-1 383.20 6.0 ± 8.0 383.20 7.0 ± 8.0 393.20 5.0 ± 6.0 393.20 8.0 ± 6.0 403.20 2.0 ± 9.0 ___________

Ref.

B12 ± δB12 cm3· mol-1 5.0 ± 9.0 7.0 ± 4.0 11.0 ± 4.0 5.0 ± 7.0 9.0 ± 7.0

T K 403.20 413.20 413.20 423.20 423.20 ___________

______________________________________________

83-smi/sel 88-wor/lan 83-smi/sel 88-wor/lan 83-smi/sel

Hydrogen Helium

[1333-74-0] [7440-59-7]

Ref.

______________________________________________

H2 He

88-wor/lan 83-smi/sel 88-wor/lan 83-smi/sel 88-wor/lan

MW = 2.02 MW = 4.00

247

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3 mol-1 = 1.8618 ⋅ 10 − 7.5727 ⋅ 102/(T/K) + 6.8549 ⋅ 102/(T/K)2 − 3.1665 ⋅ 103/(T/K)3 T/K 25 50 100

(B12 ± 2σest)/cm3· mol-1 -10.8 ± 3 3.7 ± 3 11.1 ± 3

T/K 150 200 250

(B12 ± 2σest)/cm3· mol-1 13.6 ± 3 14.8 ± 3 15.6 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 8.20 -73.0 ± 3.7 -3.7 79-ber/cha (z) 9.20 -56.0 ± 2.8 3.7 79-ber/cha (z) 10.20 -47.0 ± 2.4 5.0 79-ber/cha (z) 14.00 -38.0 ± 4.0 -4.9 59-var/bee (▲) 15.00 -33.0 ± 3.0 -3.2 59-var/bee (▲) 16.00 -28.0 ± 3.0 -1.2 59-var/bee (▲) 17.00 -25.0 ± 3.0 -0.8 59-var/bee (▲) 18.00 -22.0 ± 2.0 -0.1 59-var/bee (▲) 19.00 -19.0 ± 2.0 0.8 59-var/bee (▲) 20.00 -17.0 ± 2.0 0.9 59-var/bee (▲) 20.40 -16.0 ± 1.0 1.2 59-var/bee (▲) 21.00 -15.0 ± 2.0 1.2 59-bee/var (▲) 90.00 12.8 ± 3.0 2.5 59-kno/bee („) 148.15 15.9 ± 3.0 2.4 69-bre/vau (∆) _________

_____________________________________

_____________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 20.40 0.500 54.7 ± 2.0 60-kna/kno ___________

________________________________________

T K 173.15 198.15 223.15 248.15 273.15 298.15 298.20 323.15 323.20 348.20 373.20 398.20 423.20 448.20 _________

T K

___________

T/K 300 350 450

(B12 ± 2σest)/cm3· mol-1 16.1 ± 2 16.5 ± 2 16.9 ± 2

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 16.2 ± 3.0 1.9 16.4 ± 3.0 1.6 16.2 ± 3.0 1.0 16.4 ± 3.0 0.8 16.4 ± 3.0 0.5 16.0 ± 3.0 -0.1 15.6 ± 2.0 -0.5 15.8 ± 3.0 -0.5 15.6 ± 2.0 -0.7 15.2 ± 2.0 -1.2 15.6 ± 2.0 -1.0 14.4 ± 2.0 -2.3 15.8 ± 2.0 -1.0 14.6 ± 2.0 -2.3 ______________________________________

x1

_____________________________________

BE ± δBE cm3· mol-1

Ref. (Symbol in Fig. 1) 69-bre/vau (∆) 69-bre/vau (∆) 69-bre/vau (∆) 69-bre/vau (∆) 69-bre/vau (∆) 69-bre/vau (∆) 29-gib/tan (×) 69-bre/vau (∆) 29-gib/tan (×) 29-gib/tan (×) 29-gib/tan (×) 29-gib/tan (×) 29-gib/tan (×) 29-gib/tan (×)

Ref.

________________________________________

cont. Landolt-Börnstein New Series IV/21B

119

2 Mixtures Containing an Inorganic Compound

Hydrogen + Helium (cont.)

(B 12 - B 12calc)/cm3·mol-1

10 5 0 -5 -10 0

50

100

150

200

250

300

350

400

450

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 3 6 -2 K 10 · cm · mol 8.20 7.0 ± 2.0 79-ber/cha 9.20 2.0 ± 1.0 79-ber/cha ___________

__________________________________________________________

Hydrogen Krypton

T K 10.20 ___________

[1333-74-0] [7439-90-9]

C112 ± δC112 103· cm6· mol-2 2.0 ± 1.0

Ref.

__________________________________________________________

H2 Kr

79-ber/cha

MW = 2.02 MW = 83.80

248

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3 mol-1 = 3.0823 · 10 − 7.4810 · 103/(T/K) − 1.8883 · 105/(T/K)2 T/K 150 200 250

(B12 ± 2σest)/cm3· mol-1 -27.4 ± 2 -11.3 ± 2 -2.1 ± 2

T/K 300 350 400

(B12 ± 2σest)/cm3· mol-1 3.8 ± 2 7.9 ± 2 10.9 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 148.20 -28.1 ± 1.0 0.2 67-bre (▲) 150.00 -24.6 ± 5.0 2.8 80-per/sch („) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 13.3 ± 5 15.1 ± 5

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 173.20 -19.2 ± 1.0 -0.5 175.00 -16.0 ± 5.0 2.1 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (▲) 80-per/sch („) cont.

120

2 Mixtures Containing an Inorganic Compound

Hydrogen + Krypton (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 198.20 -12.0 ± 1.0 -0.3 200.00 -9.8 ± 5.0 1.5 223.20 -6.4 ± 1.0 0.1 250.00 -1.6 ± 5.0 0.5 273.20 1.2 ± 1.0 0.3 300.00 3.5 ± 5.0 -0.3 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (▲) 80-per/sch („) 67-bre (▲) 80-per/sch („) 67-bre (▲) 80-per/sch („)

T K 323.20 350.00 400.00 450.00 500.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 6.0 ± 1.0 0.1 7.0 ± 5.0 -0.9 9.5 ± 5.0 -1.4 11.4 ± 5.0 -1.9 12.8 ± 5.0 -2.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (▲) 80-per/sch („) 80-per/sch („) 80-per/sch („) 80-per/sch („)

8 (B 12 - B 12 calc)/cm 3·mol -1

6 4 2 0 -2 -4 -6 -8 100

150

200

250

300

350

400

450

500

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 148.20 0.500 70.6 ± 0.2 67-bre 173.20 0.500 53.0 ± 0.2 67-bre 198.20 0.500 42.2 ± 0.2 67-bre ___________

________________________________________

T x1 K 223.20 0.500 273.20 0.500 323.20 0.500 ___________

BE ± δBE cm3· mol-1 35.0 ± 0.2 25.7 ± 0.2 19.9 ± 0.2

Ref.

________________________________________

67-bre 67-bre 67-bre

Landolt-Börnstein New Series IV/21B

121

2 Mixtures Containing an Inorganic Compound

Hydrogen Nitrogen

[1333-74-0] [7727-37-9]

H2 N2

MW = 2.02 MW = 28.01

249

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3 mol-1 = 3.5658 ⋅ 10 − 7.4422 ⋅ 103/(T/K) + 1.4167 ⋅ 105/(T/K)2 − 7.5396 ⋅ 106/(T/K)3 T/K 40 50 75

(B12 ± 2σest)/cm3· mol-1 -179.7 ± 6 -116.8 ± 5 -56.3 ± 3

T/K 100 150 200

(B12 ± 2σest)/cm3· mol-1 -32.1 ± 3 -9.9 ± 3 1.0 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 36.00 -227.0 ± 2.0 -3.6 56-reu/bee (Ο) 40.00 -184.0 ± 2.0 -4.3 56-reu/bee (Ο) 44.00 -150.0 ± 2.0 -1.2 56-reu/bee (Ο) 48.00 -123.0 ± 1.0 3.1 56-reu/bee (Ο) 52.00 -106.0 ± 1.0 2.7 56-reu/bee (Ο) 56.00 -95.0 ± 1.0 0.0 56-reu/bee (Ο) 60.00 -92.0 ± 1.0 -8.1 56-reu/bee (Ο) 148.15 -10.3 ± 3.0 0.1 69-bre/vau („) 170.00 -5.0 ± 0.3 -0.2 67-zan/bee (×) 173.15 -3.4 ± 3.0 0.7 69-bre/vau („) 180.00 -2.6 ± 0.2 0.0 67-zan/bee (×) 190.00 -0.6 ± 0.1 0.1 67-zan/bee (×) 198.15 1.2 ± 3.0 0.5 69-bre/vau („) 200.00 1.1 ± 0.1 0.1 67-zan/bee (×) 203.15 5.7 ± 3.0 4.1 30-bar/het (◊) 210.00 2.7 ± 0.1 0.1 67-zan/bee (×) 220.00 4.1 ± 0.2 0.1 67-zan/bee (×) 223.15 7.7 ± 3.0 3.2 30-bar/het (◊) 223.15 4.8 ± 3.0 0.3 69-bre/vau („) 230.00 5.3 ± 0.2 -0.1 67-zan/bee (×) 240.00 6.2 ± 0.2 -0.4 67-zan/bee (×)

T K 248.15 248.15 250.00 260.00 270.00 270.00 273.15 273.15 275.00 290.00 293.15 293.15 293.15 298.15 298.20 310.00 313.15 323.15 330.00 333.15 350.00

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 203.15 0.750 6.0 ± 5.7 30-bar/het 223.15 0.750 7.7 ± 7.7 30-bar/het 248.15 0.750 9.7 ± 9.5 30-bar/het 270.00 0.250 -1.5 ± 0.4 91-jae/hin 270.00 0.500 5.9 ± 0.4 91-jae/hin 270.00 0.750 10.9 ± 0.4 91-jae/hin 275.00 0.500 6.5 ± 0.4 91-jae/hin 275.00 0.750 11.3 ± 0.4 91-jae/hin

T K 290.00 290.00 290.00 293.15 310.00 310.00 310.00 330.00

_________

___________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

__________________________________________

_________

___________

T/K 250 300 350

(B12 ± 2σest)/cm3· mol-1 7.7 ± 3 12.1 ± 3 15.4 ± 3

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 9.5 ± 3.0 2.0 8.0 ± 3.0 0.5 7.2 ± 0.2 -0.5 8.2 ± 0.2 -0.5 9.1 ± 0.2 -0.6 10.4 ± 0.4 0.7 10.7 ± 3.0 0.8 10.5 ± 0.5 0.6 10.8 ± 0.4 0.7 12.0 ± 0.4 0.6 14.8 ± 3.0 3.2 11.7 ± 0.5 0.1 11.1 ± 1.4 -0.5 13.0 ± 3.0 1.0 14.1 ± 3.0 2.1 13.3 ± 0.4 0.4 13.1 ± 0.5 0.0 14.6 ± 3.0 0.8 14.6 ± 0.4 0.4 14.8 ± 0.5 0.4 15.4 ± 0.4 0.0 ______________________________________

x1

_____________________________________

Bm ± δBm cm3· mol-1 1.7 ± 0.4 7.9 ± 0.4 12.1 ± 0.4 13.2 ± 14.8 4.4 ± 0.4 9.6 ± 0.4 13.0 ± 0.4 6.8 ± 0.4

Ref. (Symbol in Fig. 1) 30-bar/het (◊) 69-bre/vau („) 67-zan/bee (×) 67-zan/bee (×) 67-zan/bee (×) 91-jae/hin (∆) 69-bre/vau („) 88-jae/aud (▲) 91-jae/hin (∆) 91-jae/hin (∆) 30-bar/het (◊) 88-jae/aud (▲) 91-lop/roz (+) 69-bre/vau („) 42-edw/ros (z) 91-jae/hin (∆) 88-jae/aud (▲) 69-bre/vau („) 91-jae/hin (∆) 88-jae/aud (▲) 91-jae/hin (∆)

Ref.

__________________________________________

0.250 0.500 0.750 0.750 0.250 0.500 0.750 0.250

91-jae/hin 91-jae/hin 91-jae/hin 30-bar/het 91-jae/hin 91-jae/hin 91-jae/hin 91-jae/hin cont.

122

2 Mixtures Containing an Inorganic Compound

Hydrogen + Nitrogen (cont.) Table 3. (cont.) T x1 K 330.00 0.500 330.00 0.750 350.00 0.250 ___________

Bm ± δBm cm3· mol-1 11.2 ± 0.4 13.9 ± 0.4 8.7 ± 0.4

Ref.

T K 350.00 350.00

x1

___________

__________________________________________

91-jae/hin 91-jae/hin 91-jae/hin

Bm ± δBm cm3· mol-1 12.5 ± 0.4 14.6 ± 0.4

Ref.

__________________________________________

0.500 0.750

91-jae/hin 91-jae/hin

(B 12 - B 12calc)/cm3·mol-1

8 6 4 2 0 -2 -4 -6 -8 -10 0

50

100

150

200

250

300

350

T/K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm K 103· cm6· mol-2 270.00 0.250 1.2 ± 0.1 91-jae/hin 270.00 0.500 0.9 ± 0.1 91-jae/hin 270.00 0.750 0.6 ± 0.1 91-jae/hin 275.00 0.500 0.8 ± 0.1 91-jae/hin 275.00 0.750 0.6 ± 0.1 91-jae/hin 290.00 0.250 1.1 ± 0.1 91-jae/hin 290.00 0.500 0.8 ± 0.1 91-jae/hin 290.00 0.750 0.5 ± 0.1 91-jae/hin 310.00 0.250 1.1 ± 0.1 91-jae/hin ___________

___________________________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 270.00 0.6 ± 0.15 91-jae/hin 273.15 0.7 ± 0.10 88-jae/aud ___________

__________________________________________________________

T K 310.00 310.00 330.00 330.00 330.00 350.00 350.00 350.00 ___________

T K 275.00 290.00 ___________

x1

Cm ± δCm 103· cm6· mol-2 0.8 ± 0.1 0.6 ± 0.1 1.1 ± 0.1 0.7 ± 0.1 0.6 ± 0.1 1.1 ± 0.1 0.8 ± 0.1 0.6 ± 0.1

Ref.

___________________________________________________________

0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750

C112 ± δC112 103· cm6· mol-2 0.6 ± 0.15 0.6 ± 0.15

91-jae/hin 91-jae/hin 91-jae/hin 91-jae/hin 91-jae/hin 91-jae/hin 91-jae/hin 91-jae/hin

Ref.

__________________________________________________________

91-jae/hin 91-jae/hin cont.

Landolt-Börnstein New Series IV/21B

123

2 Mixtures Containing an Inorganic Compound

Hydrogen + Nitrogen (cont.) Table 6. (cont.) T C112 ± δC112 K 103· cm6· mol-2 293.15 0.7 ± 0.10 310.00 0.6 ± 0.15 313.15 0.7 ± 0.10 ___________

Ref. 88-jae/aud 91-jae/hin 88-jae/aud

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 270.00 1.0 ± 0.1 91-jae/hin 273.15 1.1 ± 0.1 88-jae/aud 275.00 1.1 ± 0.1 91-jae/hin 290.00 1.0 ± 0.1 91-jae/hin 293.15 1.1 ± 0.1 88-jae/aud ___________

T K 330.00 333.15 350.00

C112 ± δC112 103· cm6· mol-2 0.6 ± 0.15 0.6 ± 0.10 0.6 ± 0.15

T K 310.00 313.15 330.00 333.15 350.00

C122 ± δC122 103· cm6· mol-2 1.0 ± 0.1 1.0 ± 0.1 1.0 ± 0.1 0.9 ± 0.1 0.9 ± 0.1

___________

__________________________________________________________

__________________________________________________________

Hydrogen Neon

___________

[1333-74-0] [7440-01-9]

Ref.

__________________________________________________________

91-jae/hin 88-jae/aud 91-jae/hin

Ref.

__________________________________________________________

H2 Ne

91-jae/hin 88-jae/aud 91-jae/hin 88-jae/aud 91-jae/hin

MW = 2.02 MW = 20.18

250

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.2959 ⋅ 10 − 2.6461 ⋅ 103/(T/K) + 4.9944 ⋅ 104/(T/K)2 − 4.5678 ⋅ 105/(T/K)3 T/K 150 200

(B12 ± 2σest)/cm3· mol-1 7.4 ± 3 10.9 ± 3

T/K 250 300

(B12 ± 2σest)/cm3· mol-1 13.1 ± 3 14.7 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 148.15 8.2 ± 3.0 1.0 69-bre/vau (…) 173.15 10.0 ± 3.0 0.7 69-bre/vau (…) 198.15 11.2 ± 3.0 0.4 69-bre/vau (…) 223.15 12.3 ± 3.0 0.2 69-bre/vau (…) _________

______________________________________

_____________________________________

T K 248.15 273.15 298.15 323.15 _________

T/K 350

(B12 ± 2σest)/cm3· mol-1 15.8 ± 3

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 13.0 ± 3.0 -0.1 13.7 ± 3.0 -0.2 14.2 ± 3.0 -0.4 14.8 ± 3.0 -0.4 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 69-bre/vau (…) 69-bre/vau (…) 69-bre/vau (…) 69-bre/vau (…)

cont.

Landolt-Börnstein New Series IV/21B

124

2 Mixtures Containing an Inorganic Compound

Hydrogen + Neon (cont.)

(B 12 - B 12calc)/cm3·mol-1

6 4 2 0 -2 -4 140

180

220

260

300

340

T/K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Hydrogen Xenon

[1333-74-0] [7440-63-3]

H2 Xe

MW = 2.02 MW = 131.29

251

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.9290 ⋅ 10 − 3.8615 ⋅ 103/(T/K) − 1.3876 ⋅ 106/(T/K)2 + 5.8139 ⋅ 107/(T/K)3 T/K 100 150 200

(B12 ± 2σest)/cm3· mol-1 -89.8 ± 5 -40.9 ± 3 -17.4 ± 3

T/K 250 300 350

(B12 ± 2σest)/cm3· mol-1 -4.6 ± 2 3.2 ± 2 8.3 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 80.00 -125.0 ± 6.0 -2.6 77-dor/sar (…) 85.00 -110.0 ± 6.0 3.7 77-dor/sar (…) 95.00 -96.0 ± 6.0 1.4 77-dor/sar (…) 105.00 -89.0 ± 6.0 -5.8 77-dor/sar (…) 115.00 -71.0 ± 6.0 0.0 77-dor/sar (…) 125.00 -58.0 ± 6.0 2.7 77-dor/sar (…) 173.20 -29.5 ± 3.0 -1.4 67-bre (×) 175.00 -25.5 ± 5.0 1.8 80-per/sch (▲) _________

______________________________________

_____________________________________

T/K 400 450 500

(B12 ± 2σest)/cm3· mol-1 11.9 ± 2 14.5 ± 2 16.5 ± 2

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 198.20 -17.5 ± 2.0 0.6 200.00 -16.5 ± 5.0 1.0 223.20 -11.2 ± 2.0 -0.6 250.00 -4.6 ± 5.0 0.0 273.20 -0.6 ± 1.0 0.0 300.00 2.9 ± 5.0 -0.3 323.20 5.8 ± 1.0 0.0 350.00 8.0 ± 5.0 -0.3 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (×) 80-per/sch (▲) 67-bre (×) 80-per/sch (▲) 67-bre (×) 80-per/sch (▲) 67-bre (×) 80-per/sch (▲) cont.

Landolt-Börnstein New Series IV/21B

125

2 Mixtures Containing an Inorganic Compound

Hydrogen + Xenon (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 400.00 11.7 ± 5.0 -0.2 450.00 14.3 ± 5.0 -0.2 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 80-per/sch (▲) 80-per/sch (▲)

T K 500.00 _________

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) 16.5 ± 5.0 0.0 80-per/sch (▲) ______________________________________

_____________________________________

(B 12 - B 12calc)/cm3·mol-1

10 5 0 -5 -10 -15 50

100

150

200

250

300

350

400

450

500

550

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 173.20 0.500 150.1 ± 0.2 67-bre 198.20 0.500 119.1 ± 0.2 67-bre 223.20 0.500 96.1 ± 0.2 67-bre ___________

________________________________________

Hydrogen Chlorotrifluoromethane

[1333-74-0] [75-72-9]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 134.97 -69.9 ± 3.0 80-shi/zie 145.02 -60.2 ± 3.0 80-shi/zie 160.02 -50.7 ± 3.0 80-shi/zie 175.02 -42.2 ± 3.0 80-shi/zie ___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T x1 K 273.20 0.500 323.20 0.500 ___________

T K 189.97 205.03 219.99 ___________

H2 CClF3

BE ± δBE cm3· mol-1 69.6 ± 0.2 53.8 ± 0.2

Ref.

________________________________________

67-bre 67-bre

MW = 2.02 MW = 104.46

B12 ± δB12 cm3· mol-1 -32.5 ± 3.0 -22.7 ± 3.0 -16.8 ± 3.0

Ref.

______________________________________________

80-shi/zie 80-shi/zie 80-shi/zie

252

126

2 Mixtures Containing an Inorganic Compound

Hydrogen Tetrachloromethane

[1333-74-0] [56-23-5]

H2 CCl4

MW = 2.02 MW =153.82

253

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 5.8322 ⋅ 103 − 5.0461 ⋅ 106/(T/K) + 1.4589 ⋅ 109/(T/K)2 − 1.4108 ⋅ 1011/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -21.4 ± 5 -9.7 ± 5

T/K 260 275

T/K 300 325

(B12 ± 2σest)/cm3· mol-1 -3.3 ± 5 8.1 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 262.50 -20.0 ± 5.0 -1.5 72-gup/kin („) 273.20 -8.0 ± 5.0 2.6 72-gup/kin („) 298.20 -6.0 ± 4.0 -2.2 72-gup/kin („) _________

______________________________________

_____________________________________

T/K 350

(B12 ± 2σest)/cm3· mol-1 33.7 ± 5

T K 323.20 348.15 348.20

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 9.0 ± 5.0 2.2 34.9 ± 5.5 3.7 27.0 ± 5.0 -4.3

300

310

_________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 72-gup/kin („) 59-pra/ben (▲) 72-gup/kin („)

10

(B 12 - B 12calc)/cm3·mol-1

8 6 4 2 0 -2 -4 -6 -8 -10 250

260

270

280

290

320

330

340

350

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

127

2 Mixtures Containing an Inorganic Compound

Hydrogen Tetrafluoromethane

[1333-74-0] [75-73-0]

H2 CF4

MW = 2.02 MW = 88.00

254

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 6.6438 ⋅ 10 − 1.9787 ⋅ 104/(T/K) + 1.4512 ⋅ 106/(T/K)2 − 1.1631 ⋅ 108/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -102.6 ± 4 -35.4 ± 4

T/K 100 150

T/K 200 250

(B12 ± 2σest)/cm3· mol-1 -10.8 ± 4 3.1 ± 1

T/K 300 325

(B12 ± 2σest)/cm3· mol-1 12.3 ± 1 15.9 ± 1

(B 12 - B 12 calc)/cm 3·mol -1

8 6 4 2 0 -2 -4 -6 50

100

150

200

250

300

350

T/K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 94.94 -118.0 ± 4.0 -1.1 80-shi/zie (▲) 105.01 -88.3 ± 4.0 2.5 80-shi/zie (▲) 119.94 -64.8 ± 4.0 0.3 80-shi/zie (▲) 135.01 -49.4 ± 4.0 -1.6 80-shi/zie (▲) 149.98 -34.9 ± 4.0 0.6 80-shi/zie (▲)

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 165.00 -26.7 ± 4.0 -0.6 290.00 11.0 ± 0.8 0.3 300.00 12.1 ± 0.9 -0.2 320.00 15.1 ± 0.9 -0.1

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 51.5 ± 0.4 86-dun/big 300.00 0.500 48.2 ± 0.4 86-dun/big

T x1 K 320.00 0.500

_________

___________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

________________________________________

_________

___________

______________________________________

_____________________________________

BE ± δBE cm3· mol-1 43.8 ± 0.4

Ref. (Symbol in Fig. 1) 80-shi/zie (▲) 86-dun/big („) 86-dun/big („) 86-dun/big („)

Ref.

_______________________________________

86-dun/big

128

2 Mixtures Containing an Inorganic Compound

Hydrogen Chlorodifluoromethane

[1333-74-0] [75-45-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 248.20 42.32 ± 6.0 67-bre 273.20 4.97 ± 5.0 67-bre ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 248.20 0.500 308.3 ± 0.2 67-bre 273.20 0.500 216.5 ± 0.2 67-bre ___________

________________________________________

Hydrogen Methane

H2 CHClF2

B12 ± δB12 cm3· mol-1 0.78 ± 4.0

T K 298.20 ___________

T K 298.20 ___________

[1333-74-0] [74-82-8]

MW = 2.02 MW = 86.47

255

Ref.

______________________________________________

BE ± δBE cm3· mol-1 0.500 173.0 ± 0.2 x1

67-bre

Ref.

_______________________________________

H2 CH4

67-bre

MW = 2.02 MW = 16.04

256

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 1.0011 · 102 + 7.6037 · 104/(T/K) − 1.2943 · 107/(T/K)2 T/K 275

(B12 ± 2σest)/cm3· mol-1 5.2 ± 2

T/K 300

(B12 ± 2σest)/cm3· mol-1 9.5 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 3.7 ± 0.5 -1.1 88-jae/aud (z) 273.20 4.0 ± 1.0 -0.8 67-bre (…) 288.70 9.2 ± 5.0 1.2 61-mas/eak (×) 293.15 5.8 ± 0.5 -2.9 88-jae/aud (z) 298.15 10.8 ± 0.4 1.5 77-mih/sag (▲) 298.15 11.7 ± 0.4 2.4 77-mih/sag (▲) 298.15 11.1 ± 0.4 1.8 77-mih/sag (▲) 298.15 11.7 ± 0.4 2.4 77-mih/sag (▲)

T K 313.15 323.15 323.15 323.15 333.15 348.15 348.15 348.15

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm K cm3· mol-1 298.15 0.223 -21.6 ± 0.8 77-mih/sag 298.15 0.434 -5.4 ± 0.8 77-mih/sag 298.15 0.579 2.5 ± 0.8 77-mih/sag 298.15 0.680 7.2 ± 0.8 77-mih/sag 323.15 0.264 -13.8 ± 0.8 77-mih/sag

T K 323.15 323.15 348.15 348.15 348.15

_________

___________

______________________________________

_____________________________________

__________________________________________

_________

___________

T/K 350

(B12 ± 2σest)/cm3· mol-1 11.5 ± 1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 7.9 ± 0.5 -2.8 10.2 ± 0.4 -1.0 10.3 ± 0.4 -0.9 10.4 ± 0.4 -0.8 9.9 ± 0.5 -1.6 11.3 ± 0.4 -0.2 13.1 ± 0.4 1.6 12.9 ± 0.4 1.4 ______________________________________

x1

_____________________________________

Bm ± δBm cm3· mol-1 -2.2 ± 0.8 7.2 ± 0.8 -9.7 ± 0.8 1.4 ± 0.8 9.3 ± 0.8

Ref. (Symbol in Fig. 1) 88-jae/aud (z) 77-mih/sag (▲) 77-mih/sag (▲) 77-mih/sag (▲) 88-jae/aud (z) 77-mih/sag (▲) 77-mih/sag (▲) 77-mih/sag (▲)

Ref.

__________________________________________

0.456 0.664 0.264 0.456 0.664

77-mih/sag 77-mih/sag 77-mih/sag 77-mih/sag 77-mih/sag

cont. Landolt-Börnstein New Series IV/21B

129

2 Mixtures Containing an Inorganic Compound

Hydrogen + Methane (cont.) 8

(B 12 - B 12calc)/cm 3·mol -1

6 4 2 0 -2 -4 270

280

290

300

310

320

330

340

350

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 273.20 0.500 23.7 ± 0.2 67-bre ___________

________________________________________

T K

___________

x1

BE ± δBE cm3· mol-1

Ref.

Ref.

________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 273.15 0.6 ± 0.1 88-jae/aud 293.15 0.6 ± 0.1 88-jae/aud

T K 313.15 333.15

C112 ± δC112 103· cm6· mol-2 0.6 ± 0.1 0.5 ± 0.1

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 1.4 ± 0.1 88-jae/aud 293.15 1.3 ± 0.1 88-jae/aud

T K 313.15 333.15

C122 ± δC122 103· cm6· mol-2 1.2 ± 0.1 1.1 ± 0.1

___________

___________

Landolt-Börnstein New Series IV/21B

__________________________________________________________

__________________________________________________________

___________

___________

__________________________________________________________

88-jae/aud 88-jae/aud

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

130

2 Mixtures Containing an Inorganic Compound

Hydrogen Ethene

[1333-74-0] [74-85-1]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 288.70 14.7 ± 5.0 61-mas/eak

T K 298.20

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 298.15 0.124 -19.1 ± 1.8 80-pra/vis 298.15 0.224 -28.3 ± 1.9 80-pra/vis 298.15 0.398 -94.0 ± 2.9 80-pra/vis 298.15 0.742 -139.9 ± 3.6 80-pra/vis 323.15 0.225 -7.0 ± 1.6 80-pra/vis 323.15 0.345 -30.6 ± 2.0 80-pra/vis 323.15 0.551 -53.8 ± 2.3 80-pra/vis 323.15 0.721 -85.0 ± 2.8 80-pra/vis 348.15 0.136 -21.3 ± 1.8 80-pra/vis 348.15 0.317 -30.7 ± 2.0 80-pra/vis 348.15 0.549 -66.7 ± 2.5 80-pra/vis 348.15 0.683 -74.5 ± 2.6 80-pra/vis 348.15 0.895 -63.4 ± 2.5 80-pra/vis 373.15 0.193 -14.4 ± 1.7 80-pra/vis

T K 373.15 373.15 373.15 373.15 398.15 398.15 398.15 398.15 398.15 423.15 423.15 423.15 423.15 423.15

Table 5. Experimental Cm values with uncertainty. T x2 Cm ± δCm Ref. 3 K 10 · cm6· mol-2 298.15 0.124 10.0 ± 0.7 80-pra/vis 298.15 0.224 6.0 ± 0.6 80-pra/vis 298.15 0.398 19.0 ± 0.9 80-pra/vis 298.15 0.742 25.0 ± 1.0 80-pra/vis 323.15 0.225 1.0 ± 0.5 80-pra/vis 323.15 0.345 4.0 ± 0.6 80-pra/vis 323.15 0.551 -2.0 ± 0.6 80-pra/vis 323.15 0.721 -6.0 ± 0.7 80-pra/vis 348.15 0.136 10.0 ± 0.7 80-pra/vis 348.15 0.317 5.0 ± 0.6 80-pra/vis 348.15 0.549 14.0 ± 0.8 80-pra/vis 348.15 0.683 6.0 ± 0.6 80-pra/vis 348.15 0.895 -15.0 ± 0.9 80-pra/vis 373.15 0.193 2.0 ± 0.5 80-pra/vis

T K 373.15 373.15 373.15 373.15 398.15 398.15 398.15 398.15 398.15 423.15 423.15 423.15 423.15 423.15

___________

___________

___________

______________________________________________

__________________________________________

__________________________________________

Hydrogen Ethane

___________

______________________________________________

T K 288.70 ___________

MW = 2.02 MW = 28.05

B12 ± δB12 cm3· mol-1 -39.6 ± 3.0

257

Ref.

______________________________________________

x2

42-edw/ros

Bm ± δBm cm3· mol-1 -11.4 ± 1.7 -49.0 ± 2.2 -49.0 ± 2.2 -46.9 ± 2.2 -15.7 ± 1.7 -19.5 ± 1.8 -38.4 ± 2.1 -38.1 ± 2.1 -50.3 ± 2.2 -15.0 ± 1.7 -11.6 ± 1.7 -28.3 ± 1.9 -29.3 ± 1.9 -32.3 ± 2.0

Ref.

__________________________________________

0.370 0.563 0.672 0.837 0.158 0.319 0.464 0.603 0.896 0.123 0.314 0.530 0.650 0.786

x2

___________

[1333-74-0] [74-84-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 273.15 -3.7 ± 1.0 88-jae/aud ___________

___________

H2 C2H4

Cm ± δCm 10 · cm6· mol-2 3.0 ± 0.6 17.0 ± 0.8 6.0 ± 0.6 -8.0 ± 0.7 6.0 ± 0.6 3.0 ± 0.6 10.0 ± 0.7 -4.0 ± 0.6 23.0 ± 1.0 -1.0 ± 0.5 3.0 ± 0.6 6.0 ± 0.6 -1.0 ± 0.5 -8.0 ± 0.7

80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis

Ref.

__________________________________________

3

0.370 0.563 0.672 0.837 0.158 0.319 0.464 0.603 0.896 0.123 0.314 0.530 0.650 0.786

H2 C2H6

80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis 80-pra/vis

MW = 2.02 MW = 30.07

B12 ± δB12 cm3· mol-1 11.1 ± 5.0

258

Ref.

______________________________________________

61-mas/eak cont. Landolt-Börnstein New Series IV/21B

131

2 Mixtures Containing an Inorganic Compound

Hydrogen + Ethane (cont.) Table 2. (cont.) T B12 ± δB12 K cm3· mol-1 293.15 0.1 ± 1.0 298.15 5.0 ± 0.5 298.15 5.6 ± 0.5 298.15 5.8 ± 0.5 313.15 2.6 ± 1.0 323.15 7.9 ± 0.5 ___________

Ref. 88-jae/aud 77-mih/sag 77-mih/sag 77-mih/sag 88-jae/aud 77-mih/sag

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 298.15 0.231 -107.0 ± 5.0 77-mih/sag 298.15 0.651 -14.0 ± 0.7 77-mih/sag 298.15 0.801 3.6 ± 0.3 77-mih/sag 323.15 0.221 -90.5 ± 4.5 77-mih/sag 323.15 0.651 -8.7 ± 0.5 77-mih/sag ___________

T K 323.15 323.15 333.15 348.15 348.15 348.15

B12 ± δB12 cm3· mol-1 8.6 ± 0.5 8.0 ± 0.5 3.9 ± 1.0 11.5 ± 0.5 11.9 ± 0.5 11.1 ± 0.5

T K 323.15 348.15 348.15 348.15

x1

___________

______________________________________________

__________________________________________

___________

Bm ± δBm cm3· mol-1 5.9 ± 0.3 -61.9 ± 3.0 -4.0 ± 0.2 8.2 ± 0.4

0.801 0.280 0.651 0.801

T K 313.15 333.15

C112 ± δC112 103· cm6· mol-2 0.6 ± 0.1 1.0 ± 0.1

Table 7. Experimental C122 values with uncertainty. T Ref. C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 4.0 ± 0.4 88-jae/aud 293.15 3.9 ± 0.4 88-jae/aud

T K 313.15 333.15

C122 ± δC122 103· cm6· mol-2 3.9 ± 0.4 3.8 ± 0.4

___________

__________________________________________________________

__________________________________________________________

Hydrogen Ethanol

______________________________________________

Hydrogen Propene

Landolt-Börnstein New Series IV/21B

T K 348.15 ___________

______________________________________________

T K

77-mih/sag 77-mih/sag 77-mih/sag 77-mih/sag

Ref. 88-jae/aud 88-jae/aud

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

MW = 2.02 MW = 46.07

B12 ± δB12 cm3· mol-1 5 ± 2

259

Ref.

______________________________________________

H2 C3H6

___________

Ref.

__________________________________________________________

H2 C2H6O

[1333-74-0] [115-07-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 288.70 14.5 ± 5.0 61-mas/eak ___________

___________

[1333-74-0] [64-17-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.15 5 ± 5 73-gup/les 323.15 6 ± 4 73-gup/les ___________

___________

77-mih/sag 77-mih/sag 88-jae/aud 77-mih/sag 77-mih/sag 77-mih/sag

_________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 273.15 0.6 ± 0.1 88-jae/aud 293.15 0.5 ± 0.1 88-jae/aud ___________

Ref.

______________________________________________

73-gup/les

MW = 2.02 MW = 42.08

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

260

132

2 Mixtures Containing an Inorganic Compound

Hydrogen Propane

[1333-74-0] [74-98-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 248.20 2.3 ± 1.0 67-bre 273.20 1.3 ± 1.0 67-bre 277.60 12.0 ± 10.0 80-mal-1 288.70 5.7 ± 5.0 61-mas/eak 298.15 5.0 ± 0.5 77-mih/sag ___________

______________________________________________

H2 C3H8

T K 298.20 323.15 323.15 348.15 348.15 ___________

B12 ± δB12 cm3· mol-1 5.1 ± 1.0 4.9 ± 0.5 3.5 ± 0.5 6.9 ± 0.5 5.7 ± 0.5

T K 348.15 348.15

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 248.20 0.500 285.3 ± 0.2 67-bre 273.20 0.500 228.3 ± 0.2 67-bre

T x1 K 298.20 0.500

__________________________________________

___________

________________________________________

Hydrogen Butane

______________________________________________

Hydrogen Cyclopentane

___________

______________________________________________

T K

___________

0.734 0.801

T K

67-bre 77-mih/sag 77-mih/sag 77-mih/sag 77-mih/sag

Bm ± δBm cm3· mol-1 -8.7 ± 0.5 0.8 ± 0.5

Ref.

BE ± δBE cm3· mol-1 191.8 ± 0.2

Ref.

77-mih/sag 77-mih/sag

________________________________________

67-bre

MW = 2.02 MW = 58.12

B12 ± δB12 cm3· mol-1

262

Ref.

______________________________________________

H2 C5H10

___________

Ref.

__________________________________________

H2 C4H10

[1333-74-0] [287-92-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 298.20 5 ± 10 62-des/gol

x1

___________

[1333-74-0] [106-97-8]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 288.70 9.2 ± 5.0 61-mas/eak ___________

___________

261

______________________________________________

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 298.15 0.839 1.4 ± 0.5 77-mih/sag 323.15 0.734 -13.1 ± 0.5 77-mih/sag 323.15 0.801 -2.6 ± 0.5 77-mih/sag ___________

MW = 2.02 MW = 44.10

MW = 2.02 MW = 70.13

B12 ± δB12 cm3· mol-1

263

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

133

2 Mixtures Containing an Inorganic Compound

Hydrogen 1-Pentene

[1333-74-0] [109-67-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -19 ± 9 68-cru/gai ___________

______________________________________________

Hydrogen Pentane

______________________________________________

Hydrogen 2-Methylbutane

T K 298.20 298.20

[1333-74-0] [78-78-4]

___________

Hydrogen Benzene

MW = 2.02 MW = 72.15

B12 ± δB12 cm3· mol-1 3.0 ± 3 2.0 ± 6

H2 C5H12

265

Ref. 65-eve 66-cru/win

MW = 2.02 MW = 72.15

B12 ± δB12 cm3· mol-1

T K

[1333-74-0] [71-43-2]

Ref.

______________________________________________

___________

______________________________________________

264

______________________________________________

H2 C5H12

___________

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 26 ± 30 62-des/gol

MW = 2.02 MW = 70.13

B12 ± δB12 cm3· mol-1

T K

___________

[1333-74-0] [109-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 288.70 9.7 ± 5 61-mas/eak 298.20 7.0 ± 10 62-des/gol ___________

H2 C5H10

266

Ref.

______________________________________________

H2 C6H6

MW = 2.02 MW = 78.11

267

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 7.1836 · 10 − 2.5863 · 104/(T/K) T/K 320 375

(B12 ± 2σest)/cm3· mol-1 -9.0 ± 1 2.9 ± 1

T/K 420 475

(B12 ± 2σest)/cm3· mol-1 10.3 ± 2 17.4 ± 3

T/K 525 575

(B12 ± 2σest)/cm3· mol-1 22.6 ± 3 26.9 ± 3

Table 2. Experimental B12 values with uncertainty. T K 323.15 323.15 373.15 473.15 493.15 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -7.9 ± 1.0 0.3 -7.2 ± 1.0 1.0 1.6 ± 0.6 -0.9 16.0 ± 3.0 -1.2 19.0 ± 3.5 -0.4 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 61-con (▲) 61-con (▲) 61-con (▲) 61-con (▲) 61-con (▲)

T K 513.15 533.15 553.15 573.15 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 21.0 ± 3.5 -0.4 23.0 ± 3.5 -0.3 25.0 ± 3.5 -0.1 27.0 ± 3.5 0.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 61-con (▲) 61-con (▲) 61-con (▲) 61-con (▲)

cont. Landolt-Börnstein New Series IV/21B

134

2 Mixtures Containing an Inorganic Compound

Hydrogen + Benzene (cont.)

4

3

(B 12 - B 12calc)/cm ·mol

-1

3 2 1 0 -1 -2 -3 -4 -5 300

350

400

450

500

550

600

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 493.20 1.0 ± 0.5 61-con 533.20 1.0 ± 0.5 61-con

T K 573.20

C112 ± δC112 103· cm6· mol-2 1.0 ± 0.5

Ref.

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 493.20 8.0 ± 3.0 61-con 533.20 8.0 ± 3.0 61-con

T K 573.20

C122 ± δC122 103· cm6· mol-2 8.0 ± 3.0

Ref.

___________

___________

__________________________________________________________

__________________________________________________________

___________

___________

__________________________________________________________

61-con

__________________________________________________________

61-con

Landolt-Börnstein New Series IV/21B

135

2 Mixtures Containing an Inorganic Compound

Hydrogen Cyclohexane

[1333-74-0] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -18 ± 30 62-des/gol ___________

______________________________________________

Hydrogen Methylcyclopentane

______________________________________________

Hydrogen 1-Hexene

______________________________________________

Hydrogen Hexane

______________________________________________

Hydrogen 2-Methylpentane

___________

Landolt-Börnstein New Series IV/21B

T K

___________

______________________________________________

T K 298.20 ___________

T K

Ref.

MW = 2.02 MW = 84.16

B12 ± δB12 cm3· mol-1

269

Ref.

MW = 2.02 MW = 84.16

B12 ± δB12 cm3· mol-1

270

Ref.

______________________________________________

MW = 2.02 MW = 86.18

B12 ± δB12 cm3· mol-1 6 ± 6

271

Ref.

______________________________________________

H2 C6H14

___________

268

______________________________________________

H2 C6H14

[1333-74-0] [107-83-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -7 ± 10 62-des/gol

B12 ± δB12 cm3· mol-1

H2 C6H12

[1333-74-0] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 0 ± 10 62-des/gol ___________

T K

___________

MW = 2.02 MW = 84.16

______________________________________________

H2 C6H12

[1333-74-0] [592-41-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -13 ± 9 68-cru/gai ___________

T K

___________

[1333-74-0] [96-37-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -12 ± 30 62-des/gol ___________

H2 C6H12

66-cru/win

MW = 2.02 MW = 86.18

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

272

136

2 Mixtures Containing an Inorganic Compound

Hydrogen 3-Methylpentane

[1333-74-0] [96-14-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 3 ± 10 62-des/gol ___________

______________________________________________

Hydrogen 2,2-Dimethylbutane

______________________________________________

Hydrogen 2,3-Dimethylbutane

______________________________________________

Hydrogen Toluene

______________________________________________

Hydrogen 1-Heptene

___________

T K

___________

T K 348.15 ___________

______________________________________________

T K

Ref.

MW = 2.02 MW = 86.18

B12 ± δB12 cm3· mol-1 9 ± 6

274

Ref. 66-cru/win

MW = 2.02 MW = 86.18

B12 ± δB12 cm3· mol-1

275

Ref.

______________________________________________

MW = 2.02 MW = 92.14

B12 ± δB12 cm3· mol-1 37.2 ± 6.0

276

Ref.

______________________________________________

H2 C7H14

___________

273

______________________________________________

H2 C7H8

[1333-74-0] [592-76-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -2 ± 9 68-cru/gai

B12 ± δB12 cm3· mol-1

H2 C6H14

[1333-74-0] [108-88-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 19.0 ± 5.9 59-pra/ben ___________

T K 298.20 ___________

MW = 2.02 MW = 86.18

______________________________________________

H2 C6H14

[1333-74-0] [79-29-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 9 ± 10 62-des/gol ___________

T K

___________

[1333-74-0] [75-83-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 26 ± 20 62-des/gol ___________

H2 C6H14

59-pra/ben

MW = 2.02 MW = 98.19

B12 ± δB12 cm3· mol-1

277

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

137

2 Mixtures Containing an Inorganic Compound

Hydrogen Heptane

[1333-74-0] [142-82-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -2 ± 9 68-cru/gai ___________

______________________________________________

Hydrogen 2-Methylhexane

______________________________________________

Hydrogen 3-Methylhexane

______________________________________________

Hydrogen 3-Ethylpentane

______________________________________________

Hydrogen 2,2-Dimethylpentane

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 2.02 MW = 100.20

B12 ± δB12 cm3· mol-1

279

Ref.

MW = 2.02 MW = 100.20

B12 ± δB12 cm3· mol-1

280

Ref.

______________________________________________

MW = 2.02 MW = 100.20

B12 ± δB12 cm3· mol-1

281

Ref.

______________________________________________

H2 C7H16

___________

278

______________________________________________

H2 C7H16

[1333-74-0] [590-35-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -14 ± 30 62-des/gol

B12 ± δB12 cm3· mol-1

H2 C7H16

[1333-74-0] [617-78-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -36 ± 30 62-des/gol ___________

T K

___________

MW = 2.02 MW = 100.20

______________________________________________

H2 C7H16

[1333-74-0] [589-34-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -32 ± 30 62-des/gol ___________

T K

___________

[1333-74-0] [591-76-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -35 ± 30 62-des/gol ___________

H2 C7H16

MW = 2.02 MW = 100.20

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

282

138

2 Mixtures Containing an Inorganic Compound

Hydrogen 2,3-Dimethylpentane

[1333-74-0] [565-59-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -6 ± 30 62-des/gol ___________

______________________________________________

Hydrogen 2,4-Dimethylpentane

______________________________________________

Hydrogen 3,3-Dimethylpentane

______________________________________________

Hydrogen 2,2,3-Trimethylbutane

___________

T K

___________

______________________________________________

Hydrogen Octane

T K

___________

T K

Ref.

MW = 2.02 MW = 100.20

B12 ± δB12 cm3· mol-1

284

Ref.

______________________________________________

MW = 2.02 MW = 100.20

B12 ± δB12 cm3· mol-1

285

Ref.

______________________________________________

H2 C7H16

___________

[1333-74-0] [111-65-9]

B12 ± δB12 cm3· mol-1

283

______________________________________________

H2 C7H16

[1333-74-0] [464-06-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -6 ± 30 62-des/gol

MW = 2.02 MW = 100.20

H2 C7H16

[1333-74-0] [562-49-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -12 ± 30 62-des/gol ___________

T K

___________

[1333-74-0] [108-08-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -5 ± 10 62-des/gol ___________

H2 C7H16

MW = 2.02 MW = 100.20

B12 ± δB12 cm3· mol-1

286

Ref.

______________________________________________

H2 C8H18

MW = 2.02 MW = 114.23

287

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.0789 ⋅ 102 – 3.2428 ⋅ 104/(T/K) T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -0.2 ± 10 15.2 ± 10

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 26.8 ± 8 35.8 ± 8

T/K 500 575

(B12 ± 2σest)/cm3· mol-1 43.0 ± 6 51.5 ± 6

cont. Landolt-Börnstein New Series IV/21B

139

2 Mixtures Containing an Inorganic Compound

Hydrogen + Octane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 313.15 9.0 ± 8.0 4.7 68-eve/gai (▲) 338.20 22.0 ± 8.0 10.0 68-eve/gai (▲) 373.10 17.7 ± 5.0 -3.3 61-con (…) 373.10 18.2 ± 5.0 -2.8 61-con (…) 373.10 18.4 ± 5.0 -2.6 60-con (…) 473.15 41.0 ± 6.0 1.6 61-con (…)

T K 493.15 513.15 533.15 553.15 573.15

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 3 6 -2 K 10 · cm · mol 493.15 2.0 ± 1.0 61-con 533.15 2.0 ± 1.0 61-con

T K 573.15

C112 ± δC112 103· cm6· mol-2 2.0 ± 1.0

Ref.

450

500

550

_________

______________________________________

___________

_____________________________________

__________________________________________________________

_________

___________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 42.0 ± 6.0 -0.1 46.0 ± 6.0 1.3 48.0 ± 6.0 0.9 50.0 ± 6.0 0.7 51.0 ± 6.0 -0.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 61-con (…) 61-con (…) 61-con (…) 61-con (…) 61-con (…)

__________________________________________________________

61-con

20

(B 12 - B 12calc)/cm 3·mol -1

15 10 5 0 -5 -10 -15 300

350

400

600

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 493.15 20.0 ± 10.0 61-con 533.15 20.0 ± 10.0 61-con ___________

Landolt-Börnstein New Series IV/21B

__________________________________________________________

T K 573.15 ___________

C122 ± δC122 103· cm6· mol-2 20.0 ± 10.0

Ref.

__________________________________________________________

61-con

140

2 Mixtures Containing an Inorganic Compound

Hydrogen 2,2,4-Trimethylpentane

[1333-74-0] [540-84-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.15 4.0 ± 8.0 68-eve/gai 323.15 37.6 ± 5.9 59-pra/ben 338.20 6.0 ± 8.0 68-eve/gai ___________

______________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 348.15 20.0 ± 10.0 61-con ___________

__________________________________________________________

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 348.15 2.0 ± 1.0 61-con ___________

__________________________________________________________

Hydrogen Naphthalene

______________________________________________

Hydrogen Decane

___________

______________________________________________

Deuterium hydride Helium

___________

______________________________________________

Ref. 59-pra/ben 61-con 61-con

Ref.

T K

C122 ± δC122 103· cm6· mol-2

Ref.

___________

T K 343.20 ___________

T K 348.15 ___________

[13983-20-5] [7440-59-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 16.00 -30 ± 3 59-var/bee 17.00 -27 ± 3 59-var/bee 18.00 -24 ± 2 59-var/bee 19.00 -21 ± 2 59-var/bee

B12 ± δB12 cm3· mol-1 55.7 ± 6.0 19.0 ± 2.0 18.4 ± 2.0

T K 20.00 20.40 21.00 ___________

288

______________________________________________

C112 ± δC112 103· cm6· mol-2

[1333-74-0] [124-18-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 81.2 ± 6.9 59-pra/ben

MW = 2.02 MW = 114.23

T K

___________

[1333-74-0] [91-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 295.20 -25.0 ± 3.7 62-kin/rob ___________

T K 348.15 348.15 348.15 ___________

H2 C8H18

__________________________________________________________

__________________________________________________________

H2 C10H8

MW = 2.02 MW = 128.17

B12 ± δB12 cm3· mol-1 -12.5 ± 1.4

289

Ref.

______________________________________________

H2 C10H22

62-kin/rob

MW = 2.02 MW = 142.28

B12 ± δB12 cm3· mol-1 95.3 ± 7.0

290

Ref.

______________________________________________

DH He

59-pra/ben

MW = 3.02 MW = 4.00

B12 ± δB12 cm3· mol-1 -19 ± 2 -18 ± 1 -17 ± 2

291

Ref.

______________________________________________

59-var/bee 59-bee/var 59-var/bee

cont. Landolt-Börnstein New Series IV/21B

141

2 Mixtures Containing an Inorganic Compound

Deuterium hydride + Helium (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 20.40 0.500 60.6 ± 2.0 60-kna/kno ___________

________________________________________

Deuterium Helium

T K

___________

[7782-39-0] [7440-59-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 18.00 -25 ± 3 59-var/bee 19.00 -23 ± 2 59-var/bee 20.00 -20 ± 2 59-var/bee

T K 20.40 21.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 20.40 0.500 65 ± 2 60-kna/kno

___________

___________

______________________________________________

___________

________________________________________

Water Helium

[7732-18-5] [7440-59-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 473.15 -17 ± 4 79-skr 498.15 -8 ± 3 79-skr ___________

______________________________________________

Water Nitrogen

T K 523.15 ___________

[7732-18-5] [7727-37-9]

Ref.

________________________________________

D2 He

MW = 4.03 MW = 4.00 B12 ± δB12 cm3· mol-1 -19 ± 1 -18 ± 2

___________

T K

BE ± δBE cm3· mol-1

x1

292

Ref.

______________________________________________

59-bee/var 59-var/bee

BE ± δBE cm3· mol-1

x1

Ref.

________________________________________

H2O He

MW = 18.02 MW = 4.00

B12 ± δB12 cm3· mol-1 -5 ± 3

293

Ref.

______________________________________________

H2O N2

79-skr

MW = 18.02 MW = 28.01

294

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.1501 ⋅ 102 − 2.1529 ⋅ 105/(T/K) + 7.2238 ⋅ 107/(T/K)2 − 9.0135 ⋅ 109/(T/K)3 T/K 300 400

(B12 ± 2σest)/cm3· mol-1 -33.8 ± 6 -12.6 ± 6

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -5.6 ± 4 1.3 ± 4

T/K 550 600

(B12 ± 2σest)/cm3· mol-1 8.2 ± 8 15.1 ± 10

cont. Landolt-Börnstein New Series IV/21B

142

2 Mixtures Containing an Inorganic Compound

Water + Nitrogen (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.00 -30.0 ± 1.4 4.6 80-wor/col (9) 298.15 -40.0 ± 6.0 -5.5 68-rig/pra (+) 298.15 -31.0 ± 10 3.5 94-hal/igl (…) 323.00 -23.0 ± 1.3 3.6 80-wor/col (9) 323.15 -28.0 ± 5.0 -1.4 68-rig/pra (+) 323.15 -25.0 ± 8.0 1.6 94-hal/igl (…) 348.00 -18.0 ± 1.3 3.0 80-wor/col (9) 348.15 -20.0 ± 4.0 1.0 68-rig/pra (+) 348.15 -20.0 ± 6.0 1.0 94-hal/igl (…) 373.00 -13.0 ± 1.2 3.6 80-wor/col (9) 373.15 -15.5 ± 3.0 1.1 68-rig/pra (+) 373.15 -15.0 ± 3.0 1.6 81-ric/wor (Δ) 373.15 -15.5 ± 5.0 1.1 94-hal/igl (…) 373.20 -17.0 ± 3.0 -0.4 88-wor/lan (▲) 380.15 -14.0 ± 3.0 1.5 81-ric/wor (Δ) 380.20 -24.0 ± 3.0 -8.5 88-wor/lan (▲) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 390.15 390.20 400.15 400.20 410.15 410.20 420.15 423.00 423.20 473.00 473.15 498.15 523.15 573.15 663.15 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -13.0 ± 3.0 1.0 -20.0 ± 3.0 -6.0 -16.0 ± 3.0 -3.5 -20.0 ± 3.0 -7.5 -12.0 ± 4.0 -0.9 -10.0 ± 4.0 1.1 -12.0 ± 4.0 -2.3 -6.0 ± 1.1 3.3 -8.0 ± 4.0 1.3 0.0 ± 1.0 2.4 -35.0 ± 10 -32.6 -25.0 ± 10 -26.0 3.0 ± 0.2 -1.5 3.3 ± 0.2 -8.1 6.5 ± 0.2 -17.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-ric/wor (Δ) 88-wor/lan (▲) 81-ric/wor (Δ) 88-wor/lan (▲) 81-ric/wor (Δ) 88-wor/lan (▲) 81-ric/wor (Δ) 80-wor/col (9) 88-wor/lan (▲) 80-wor/col (9) 79-skr 1 79-skr 1 96-abd/baz (×) 96-abd/baz (×) 96-abd/baz (×)

(B 12 - B 12calc)/cm3·mol-1

20 15 10 5 0 -5 -10 -15 -20 250

300

350

400

450

500

550

600

650

700

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 523.15 0.000 149.1 ± 0.6 96-abd/baz 523.15 0.268 -87.6 ± 1.2 96-abd/baz 523.15 0.566 -0.3 ± 0.8 96-abd/baz 523.15 0.852 387.5 ± 1.5 96-abd/baz ___________

_________________________________________

T K 523.15 573.15 573.15 573.15 ___________

x2

Bm ± δBm cm3· mol-1 -39.7 ± 1.2 115.9 ± 0.6 -94.3 ± 0.6 -86.6 ± 0.6

Ref.

__________________________________________

0.942 0.000 0.117 0.222

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz cont.

Landolt-Börnstein New Series IV/21B

143

2 Mixtures Containing an Inorganic Compound

Water + Nitrogen (cont.) Table 3. (cont.) T x2 K 573.15 0.476 573.15 0.746 573.15 0.882 663.15 0.000 ___________

Bm ± δBm cm3· mol-1 -32.0 ± 0.7 -3.1 ± 0.6 4.3 ± 0.5 70.0 ± 3.0

Ref.

T K 663.15 663.15 663.15 663.15

0.065 0.189 0.334 0.546

T

x2

___________

_________________________________________

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

Table 5. Experimental Cm values with uncertainty. T x2 Ref. Cm ± δCm ___________

x2

Cm ± δCm

___________

___________________________________________________________

K 523.15 523.15 523.15 523.15 523.15 573.15 573.15 573.15

3

6

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

K 573.15 573.15 663.15 663.15 663.15 663.15 663.15

3

0.746 0.882 0.000 0.065 0.189 0.334 0.546

6

10 · cm · mol 8.6 ± 0.1 2.4 ± 0.1 1.0 ± 0.1 1.7 ± 0.1 1.5 ± 0.1 1.1 ± 0.1 0.5 ± 0.1

T K 623.15

C112 ± δC112 103· cm6· mol-2 -6.2 ± 0.1

Ref.

Table 7. Experimental C122 values with uncertainty. T Ref. C122 ± δC122 3 6 -2 K 10 · cm · mol 523.15 502.1 ± 8.0 96-abd/baz 573.15 17.6 ± 0.2 96-abd/baz

T K 623.15

C122 ± δC122 103· cm6· mol-2 7.4 ± 0.1

Ref.

___________

__________________________________________________________

__________________________________________________________

Water Nitrous oxide

Landolt-Börnstein New Series IV/21B

___________

___________

[7732-18-5] [10024-97-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -188 ± 9 71-coa/kin 323.15 -152 ± 9 71-coa/kin ___________

______________________________________________

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

Ref.

-2

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 3 6 -2 K 10 · m · mol 523.15 -854.2 ± 5.0 96-abd/baz 573.15 7.1 0.1 96-abd/baz ___________

Ref.

__________________________________________________________

-2

10 · cm · mol 0.000 -8.8 ± 0.2 0.268 -10.2 ± 1.6 0.566 -42.0 ± 0.2 0.852 -475.0 ± 2.0 0.942 25.4 ± 0.7 0.000 -0.6 ± 0.2 0.117 3.5 ± 0.5 0.222 10.0 ± 0.5

Bm ± δBm cm3· mol-1 -65.7 ± 1.0 -49.8 ± 0.3 -24.3 ± 0.6 0.0 ± 0.0 __________________________________________

T K 348.15 373.15 ___________

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

__________________________________________________________

96-abd/baz

__________________________________________________________

H2O N2O

96-abd/baz

MW = 18.02 MW = 44.01

B12 ± δB12 cm3· mol-1 -119 ± 6 -94 ± 7

Ref.

______________________________________________

71-coa/kin 71-coa/kin

295

144

2 Mixtures Containing an Inorganic Compound

Water Neon

[7732-18-5] [7440-01-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 473.15 -4.5 ± 1 79-skr ___________

______________________________________________

Water Oxygen

T K 498.15 ___________

[7732-18-5] [7782-44-7]

H2O Ne

MW = 18.02 MW = 20.18

B12 ± δB12 cm3· mol-1 -2.5 ± 1

296

Ref.

______________________________________________

H2O O2

79-skr

MW = 18.02 MW = 32.00

297

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.6866 ⋅ 10 − 1.0140 ⋅ 104/(T/K) − 3.3711 ⋅ 106/(T/K)2 + 2.1458 ⋅ 108/(T/K)3 T/K 200 250

(B12 ± 2σest)/cm3· mol-1 -71.3 ± 9 -43.9 ± 5

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -26.4 ± 4 -14.6 ± 4

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 173.16 -93.8 ± 13.6 -1.0 96-wyl/fis („) 183.16 -84.3 ± 11.8 -0.2 96-wyl/fis („) 193.16 -76.0 ± 10.2 0.2 96-wyl/fis („) 203.16 -68.7 ± 8.9 0.4 96-wyl/fis („) 213.16 -62.2 ± 7.6 0.5 96-wyl/fis („) 223.16 -56.4 ± 6.5 0.6 96-wyl/fis („) 233.16 -51.2 ± 5.5 0.5 96-wyl/fis („) 243.16 -46.5 ± 4.6 0.4 96-wyl/fis („) 253.16 -42.2 ± 3.8 0.4 96-wyl/fis („) 263.16 -38.3 ± 3.1 0.3 96-wyl/fis („) 273.16 -34.7 ± 2.5 0.2 96-wyl/fis („) 278.16 -33.1 ± 2.2 0.1 96-wyl/fis („) 283.16 -31.4 ± 1.9 0.1 96-wyl/fis („) 288.16 -29.9 ± 1.7 0.1 96-wyl/fis („) 293.16 -28.4 ± 1.5 0.0 96-wyl/fis („) 298.15 -23.4 ± 9.0 3.6 94-hal/igl (▲) 298.16 -27.0 ± 1.3 0.0 96-wyl/fis („) 303.16 -25.6 ± 1.2 0.0 96-wyl/fis („) 308.16 -24.3 ± 1.2 -0.1 96-wyl/fis („) 313.16 -23.1 ± 1.2 -0.2 96-wyl/fis („) 318.16 -21.8 ± 1.3 -0.2 96-wyl/fis („) 323.15 -17.2 ± 5.0 3.2 94-hal/igl (▲) 323.16 -20.6 ± 1.4 -0.2 96-wyl/fis („) _________

______________________________________

_____________________________________

T K 328.16 333.16 338.16 343.16 348.15 348.16 353.16 358.16 363.16 368.16 373.15 373.16 383.16 393.16 403.16 413.16 423.16 433.16 443.16 453.16 463.16 473.16 _________

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -6.2 ± 4 0.0 ± 4

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -19.5 ± 1.5 -0.2 -18.4 ± 1.6 -0.3 -17.4 ± 1.8 -0.3 -16.3 ± 1.9 -0.3 -11.5 ± 2.5 3.5 -15.3 ± 2.1 -0.3 -14.4 ± 2.3 -0.4 -13.4 ± 2.4 -0.3 -12.5 ± 2.6 -0.4 -11.7 ± 2.8 -0.5 -7.1 ± 2.0 3.3 -10.8 ± 2.9 -0.4 -9.2 ± 3.2 -0.5 -7.7 ± 3.5 -0.5 -6.3 ± 3.8 -0.5 -4.9 ± 4.0 -0.5 -3.6 ± 4.3 -0.5 -2.4 ± 4.5 -0.5 -1.2 ± 4.8 -0.5 -0.2 ± 5.0 -0.6 0.9 ± 5.2 -0.5 1.9 ± 5.4 -0.5 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 94-hal/igl (▲) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 94-hal/igl (▲) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („) 96-wyl/fis („)

Landolt-Börnstein New Series IV/21B

145

2 Mixtures Containing an Inorganic Compound

Water + Oxygen (cont.) Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 273.16 1.4 ± 0.4 96-wyl/fis 283.16 1.4 ± 0.3 96-wyl/fis 293.16 1.3 ± 0.3 96-wyl/fis 303.16 1.3 ± 0.2 96-wyl/fis 313.16 1.2 ± 0.2 96-wyl/fis 323.16 1.2 ± 0.2 96-wyl/fis ___________

__________________________________________________________

C122 ± δC122 103· cm6· mol-2 1.1 ± 0.2 1.1 ± 0.2 1.0 ± 0.3 1.0 ± 0.3 0.9 ± 0.4

T K 333.16 343.16 353.16 363.16 373.16 ___________

Ref.

__________________________________________________________

96-wyl/fis 96-wyl/fis 96-wyl/fis 96-wyl/fis 96-wyl/fis

15

3

(B 12 - B 12calc)/cm ·mol

-1

10 5 0 -5 -10 -15 150

200

250

300

350

400

450

500

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Water Trichloromethane

[7732-18-5] [67-66-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -371 ± 20 81-lan/wor-1 373.20 -302 ± 20 81-lan/wor-1 383.20 -279 ± 15 81-lan/wor-1 ___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 393.20 403.20 ___________

H2O CHCl3

MW = 18.02 MW = 119.38

B12 ± δB12 cm3· mol-1 -259 ± 15 -235 ± 15

298

Ref.

______________________________________________

81-lan/wor-1 81-lan/wor-1

146

2 Mixtures Containing an Inorganic Compound

Water Chloromethane

[7732-18-5] [74-87-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 363.20 -202 ± 6 88-wor/lan 373.20 -190 ± 4 88-wor/lan 383.20 -180 ± 7 88-wor/lan 393.20 -168 ± 4 88-wor/lan ___________

______________________________________________

Water Methane

H2O CH3Cl

B12 ± δB12 cm3· mol-1 -157 ± 4 -146 ± 3 -139 ± 4

T K 403.20 413.20 423.20 ___________

[7732-18-5] [74-82-8]

MW = 18.02 MW = 50.49

299

Ref.

______________________________________________

H2O CH4

88-wor/lan 88-wor/lan 88-wor/lan

MW = 18.02 MW = 16.04

300

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 6.7399 ⋅ 10 − 3.5456 ⋅ 104/(T/K) (B12 ± 2σest)/cm3· mol-1 -50.8 ± 12 -33.9 ± 12 -21.2 ± 11

T/K 300 350 400

T/K 450 500 550

(B12 ± 2σest)/cm3· mol-1 -11.4 ± 11 -3.5 ± 10 2.9 ± 10

T/K 600 650

(B12 ± 2σest)/cm3· mol-1 8.3 ± 10 12.9 ± 10

50

30

3

(B 12 - B 12calc)/cm ·mol

-1

40

20 10 0 -10 -20 -30 250

300

350

400

450

500

550

600

650

700

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

147

2 Mixtures Containing an Inorganic Compound

Water + Methane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.15 -63.0 ± 6.0 -11.5 68-rig/pra (×) 298.20 -12.5 ± 10.0 39.0 90-woo/zen (z) 323.15 -46.0 ± 5.0 -3.7 68-rig/pra (×) 323.20 -7.6 ± 5.0 34.7 90-woo/zen (z) 348.15 -37.0 ± 4.0 -2.6 68-rig/pra (×) 348.20 -3.6 ± 3.0 30.8 90-woo/zen (z) 373.15 -30.0 ± 3.0 -2.4 68-rig/pra (×) 373.20 -38.0 ± 7.0 -10.4 83-smi/sel (▲) 373.20 -39.0 ± 7.0 -11.4 88-wor/lan (9) 373.20 -2.0 ± 2.0 25.6 90-woo/zen (z) 383.20 -29.0 ± 5.0 -3.9 83-smi/sel (▲) 383.20 -28.0 ± 5.0 -2.9 88-wor/lan (9) 393.20 -31.0 ± 11.0 -8.2 83-smi/sel (▲) 393.20 -28.0 ± 11.0 -5.2 88-wor/lan (9) 398.15 -24.1 ± 18.0 -2.4 88-jof/eub (Ο) 403.20 -26.0 ± 6.0 -5.5 83-smi/sel (▲) 403.20 -23.0 ± 6.0 -2.5 88-wor/lan (9) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 398.15 0.100 -20.6 ± 2.4 88-jof/eub 398.15 0.250 -39.6 ± 3.0 88-jof/eub 398.15 0.500 -106.0 ± 3.6 88-jof/eub 398.15 0.100 -20.5 ± 1.0 89-jof/eub 398.15 0.250 -40.1 ± 2.0 89-jof/eub 398.15 0.500 -103.9 ± 5.0 89-jof/eub 423.15 0.100 -15.2 ± 2.1 88-jof/eub 423.15 0.250 -31.1 ± 2.4 88-jof/eub 423.15 0.500 -83.4 ± 2.7 88-jof/eub 423.15 0.100 -15.2 ± 1.0 89-jof/eub 423.15 0.250 -31.1 ± 1.0 89-jof/eub 423.15 0.500 -85.7 ± 4.0 89-jof/eub 448.15 0.100 -11.0 ± 1.5 88-jof/eub 448.15 0.250 -24.2 ± 1.5 88-jof/eub 448.15 0.500 -69.4 ± 1.8 88-jof/eub 448.15 0.100 -11.3 ± 1.0 89-jof/eub 448.15 0.250 -24.5 ± 1.0 89-jof/eub 448.15 0.500 -68.5 ± 3.0 89-jof/eub 460.65 0.100 -9.1 ± 1.2 88-jof/eub 460.65 0.250 -21.4 ± 1.2 88-jof/eub 460.65 0.500 -63.3 ± 1.5 88-jof/eub 460.65 0.250 -21.3 ± 1.0 89-jof/eub 460.65 0.500 -62.6 ± 3.0 89-jof/eub 473.15 0.100 -7.4 ± 0.9 88-jof/eub ___________

Landolt-Börnstein New Series IV/21B

__________________________________________

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 413.20 -29.0 ± 9.0 -10.6 413.20 -25.0 ± 9.0 -6.6 423.15 -17.8 ± 14.0 -1.4 423.20 -24.0 ± 8.0 -7.6 423.20 -20.0 ± 8.0 -3.6 448.15 -14.2 ± 8.0 -2.5 460.65 -12.6 ± 6.0 -3.0 473.15 -11.5 ± 4.0 -4.0 473.15 -100.0 ± 50.0 -92.5 485.65 -10.2 ± 4.0 -4.6 498.15 -9.1 ± 2.0 -5.3 498.15 -16.0 ± 8.0 -12.2 523.15 -9.4 ± 0.1 -9.0 523.15 11.0 ± 5.0 11.4 573.15 11.1 ± 0.2 5.6 623.15 19.1 ± 0.2 8.6 653.15 15.3 ± 0.1 2.2 _________

T K 473.15 473.15 473.15 473.15 473.15 485.65 485.65 485.65 485.65 485.65 498.15 498.15 498.15 498.15 498.15 498.15 523.15 523.15 523.15 523.15 523.15 523.15 523.15 523.15 ___________

______________________________________

x1

_____________________________________

Ref. (Symbol in Fig. 1) 83-smi/sel (▲) 88-wor/lan (9) 88-jof/eub (Ο) 83-smi/sel (▲) 88-wor/lan (9) 88-jof/eub (Ο) 88-jof/eub (Ο) 88-jof/eub (Ο) 79-skr 1 88-jof/eub (Ο) 88-jof/eub (Ο) 79-skr 1 96-abd/baz (+) 79-skr 1 96-abd/baz (+) 96-abd/baz (+) 96-abd/baz (+)

Bm ± δBm cm3· mol-1 -18.9 ± 0.9 -57.8 ± 0.9 -7.2 ± 1.0 -18.7 ± 1.0 -58.3 ± 3.0 -5.8 ± 0.9 -16.7 ± 0.9 -53.0 ± 0.6 -16.7 ± 1.0 -53.2 ± 3.0 -4.3 ± 0.6 -14.7 ± 0.6 -48.5 ± 0.6 -4.5 ± 1.0 -4.7 ± 1.0 -49.2 ± 3.0 2.2 ± 0.8 -51.6 ± 1.7 -69.0 ± 1.6 -101.5 ± 1.2 -149.8 ± 0.4 -149.1 ± 0.3 -113.1 ± 0.3 -79.5 ± 0.3

Ref.

_________________________________________

0.250 0.500 0.100 0.250 0.500 0.100 0.250 0.500 0.250 0.500 0.100 0.250 0.500 0.100 0.250 0.500 0.000 0.536 0.678 0.790 1.000 0.000 0.210 0.322

88-jof/eub 88-jof/eub 89-jof/eub 89-jof/eub 89-jof/eub 88-jof/eub 88-jof/eub 88-jof/eub 89-jof/eub 89-jof/eub 88-jof/eub 88-jof/eub 88-jof/eub 89-jof/eub 89-jof/eub 88-jof/eub 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz cont.

148

2 Mixtures Containing an Inorganic Compound

Water + Methane (cont.) Table 3. (cont.) T x1 K 523.15 0.464 523.15 1.000 573.15 0.000 573.15 0.230 573.15 0.433 573.15 0.457 573.15 0.656 573.15 0.816 573.15 1.000 573.15 0.000 573.15 0.184 573.15 0.344 573.15 0.543 573.15 0.567 573.15 1.000 623.15 0.000 623.15 0.153 623.15 0.376 623.15 0.559 623.15 0.813 623.15 1.000 ___________

Bm ± δBm cm3· mol-1 -46.9 ± 0.7 2.1 ± 0.1 5.8 ± 0.5 -7.2 ± 0.7 -22.6 ± 0.2 -24.7 ± 0.2 -57.4 ± 0.1 -86.3 ± 0.1 -115.8 ± 0.6 115.9 ± 0.3 -85.7 ± 0.2 -43.2 ± 0.7 -18.5 ± 0.2 -5.9 ± 0.2 6.2 ± 0.1 9.5 ± 0.2 7.3 ± 0.1 -14.9 ± 0.2 -30.0 ± 0.1 -58.7 ± 0.0 -90.2 ± 2.2

Ref. 96-abd/baz 96-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz

Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm K 103· cm6· mol-2 398.15 0.100 1.3 ± 1.7 88-jof/eub 398.15 0.250 -4.0 ± 5.4 88-jof/eub 398.15 0.500 -29.0 ± 5.6 88-jof/eub 423.15 0.100 1.4 ± 1.1 88-jof/eub 423.15 0.250 -1.7 ± 2.4 88-jof/eub 423.15 0.500 -14.9 ± 3.9 88-jof/eub 448.15 0.100 1.4 ± 0.7 88-jof/eub 448.15 0.250 0.1 ± 1.3 88-jof/eub 448.15 0.500 -6.2 ± 2.5 88-jof/eub 460.65 0.100 1.4 ± 0.6 88-jof/eub 460.65 0.250 0.4 ± 0.8 88-jof/eub 460.65 0.500 -4.3 ± 1.8 88-jof/eub 473.15 0.100 1.5 ± 0.5 88-jof/eub 473.15 0.250 0.6 ± 0.4 88-jof/eub 473.15 0.500 -2.8 ± 1.3 88-jof/eub 485.65 0.100 1.5 ± 0.4 88-jof/eub 485.65 0.250 0.8 ± 0.2 88-jof/eub 485.65 0.500 -1.6 ± 0.1 88-jof/eub 498.15 0.100 1.5 ± 0.4 88-jof/eub 498.15 0.250 0.9 ± 0.1 88-jof/eub 498.15 0.500 -1.0 ± 0.1 88-jof/eub ___________

___________________________________________________________

T K 623.15 623.15 623.15 623.15 623.15 623.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 ___________

-------______________________________________

T K 523.15 523.15 523.15 523.15 523.15 523.15 523.15 523.15 523.15 523.15 573.15 573.15 573.15 573.15 573.15 573.15 573.15 573.15 573.15 573.15 573.15 ___________

x1

Bm ± δBm cm3· mol-1 -912.7 ± 0.1 -396.5 ± 0.1 -190.4 ± 0.1 2.5 ± 0.3 6.9 ± 0.3 9.3 ± 0.2 11.4 ± 0.2 -3.5 ± 0.1 -14.8 ± 0.1 -48.5 ± 0.1 -49.4 ± 0.2 -76.9 ± 0.2 -82.8 ± 2.2 -823.9 ± 0.5 -728.6 ± 0.1 -551.2 ± 0.1 -481.2 ± 0.1 -2.0 ± 0.1 2.5 ± 0.2 119.1 ± 0.1

Ref.

_________________________________________

0.000 0.188 0.491 0.624 0.847 1.000 0.000 0.344 0.463 0.770 0.826 0.950 1.000 0.000 0.050 0.173 0.230 0.538 0.656 1.000

x1

Cm ± δCm 103· cm6· mol-2 -8.8 ± 0.1 -1.1 ± 0.1 27.8 ± 0.1 2.3 ± 0.1 1.2 ± 0.1 -1.3 ± 0.1 -17.2 ± 6.6 -14.9 ± 5.1 -9.1 ± 0.2 -10.2 ± 0.1 1.3 ± 0.1 8.3 ± 0.3 1.9 ± 0.2 -2.6 ± 0.2 0.7 ± 0.1 0.9 ± 0.1 -3.5 ± 0.2 -5.5 ± 0.1 4.2 ± 0.1 -3.8 ± 0.1 -1.6 ± 0.1

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 93-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

Ref.

__________________________________________________________

0.000 0.210 0.322 0.464 1.000 0.000 0.536 0.678 0.790 1.000 0.000 0.230 0.433 0.457 0.656 0.816 1.000 0.000 0.184 0.344 0.543

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz cont.

Landolt-Börnstein New Series IV/21B

149

2 Mixtures Containing an Inorganic Compound

Water + Methane (cont.) Table 5. (cont.) T x1 K 573.15 0.567 573.15 1.000 623.15 0.000 623.15 0.153 623.15 0.376 623.15 0.559 623.15 0.812 623.15 1.000 623.15 0.000 623.15 0.188 623.15 0.491 623.15 0.624 623.15 0.847 623.15 1.000 ___________

Cm ± δCm 103· cm6· mol-2 -1.1 ± 0.1 1.5 ± 0.1 1.3 ± 0.1 -1.1 ± 0.1 2.1 ± 0.1 1.7 ± 0.1 2.6 ± 0.1 -0.5 ± 0.1 0.6 ± 0.1 -6.5 ± 0.1 -0.5 ± 0.1 -2.8 ± 0.1 1.0 ± 0.1 1.6 ± 0.1

Ref.

T K 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 653.15 ___________

___________________________________________________________

96-abd/baz 96-abd/baz 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

x1

Cm ± δCm 103· cm6· mol-2 1.2 ± 0.1 1.3 ± 0.1 1.1 ± 0.1 1.4 ± 0.1 1.9 ± 0.1 2.4 ± 0.1 2.2 ± 0.1 2.0 ± 0.1 1.6 ± 0.1 1.6 ± 0.1 -0.4 ± 0.1 0.6 ± 0.1 1.2 ± 0.1

0.000 0.344 0.462 0.770 0.826 0.950 0.000 0.050 0.173 0.230 0.537 0.656 1.000

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 398.15 -22.6 ± 3.4 88-jof/eub 423.15 -12.8 ± 1.9 88-jof/eub 448.15 -3.3 ± 0.5 88-jof/eub 460.65 -2.0 ± 0.3 88-jof/eub 473.15 -1.0 ± 0.2 88-jof/eub 485.65 -0.2 ± 0.0 88-jof/eub

T K 498.15 523.15 573.15 623.15 653.15

C112 ± δC112 103· cm6· mol-2 0.6 ± 0.1 410.4 ± 5.0 -9.7 ± 0.1 5.0 ± 0.1 -1.3 ± 0.1

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 398.15 3.3 ± 0.7 88-jof/eub 423.15 2.6 ± 0.7 88-jof/eub 448.15 1.7 ± 0.6 88-jof/eub 460.65 1.6 ± 0.6 88-jof/eub 473.15 1.6 ± 0.6 88-jof/eub 485.65 1.3 ± 0.5 88-jof/eub

T K 498.15 523.15 573.15 623.15 653.15

C122 ± δC122 103· cm6· mol-2 1.2 ± 0.5 -317.9 ± 5.0 5.0 ± 0.1 -14.6 ± 0.2 1.1 ± 0.1

___________

___________

Landolt-Börnstein New Series IV/21B

__________________________________________________________

__________________________________________________________

___________

___________

Ref.

___________________________________________________________

93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 93-abd/baz-1 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

Ref.

__________________________________________________________

88-jof/eub 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

Ref.

__________________________________________________________

88-jof/eub 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

150

2 Mixtures Containing an Inorganic Compound

Water Methanol

[7732-18-5] [67-56-1]

H2O CH4O

MW = 18.02 MW = 32.04

301

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.7643 ⋅ 103 − 3.7597 ⋅ 106/(T/K) + 1.7211 ⋅ 109/(T/K)2 − 2.8931 ⋅ 1011/(T/K)3 T/K 375 400

(B12 ± 2σest)/cm3· mol-1 -508.8 ± 20 -398.5 ± 20

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -266.2 ± 20 -185.2 ± 20

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 373.02 -516.0 ± 17.6 3.6 97-bic/hen (▲) 382.73 -456.2 ± 14.3 13.8 97-bic/hen (▲) 395.83 -407.5 ± 12.7 6.6 97-bic/hen (▲) 400.00 -420.0 ± 40.0 -21.5 81-nop/ram (×) 410.18 -355.6 ± 12.3 8.7 97-bic/hen (▲) 425.00 -326.0 ± 40.0 -3.8 81-nop/ram (×) 431.10 -293.0 ± 11.7 14.1 97-bic/hen (▲) 448.12 -280.8 ± 16.5 -10.9 97-bic/hen (▲) _________

___________________________----------___________

_____________________________________

T K 450.00 468.15 475.00 478.66 496.46 500.00 525.00 527.00 _________

T/K 550

(B12 ± 2σest)/cm3· mol-1 -120.8 ± 20

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -267.0 ± 40.0 -0.8 -218.8 ± 12.9 14.6 -228.0 ± 40.0 -5.8 -207.4 ± 10.5 9.0 -183.7 ± 10.2 6.4 -201.0 ± 40.0 -15.8 -181.0 ± 40.0 -29.0 -139.7 ± 11.4 9.8 _________________---_____________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-nop/ram (×) 97-bic/hen (▲) 81-nop/ram (×) 97-bic/hen (▲) 97-bic/hen (▲) 81-nop/ram (×) 81-nop/ram (×) 97-bic/hen (▲)

40 30

-1

0

(B 12 - B 12calc)/cm ·mol

10

3

20

-10 -20 -30 -40 -50 -60 -70 350

375

400

425

450

475

500

525

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

151

2 Mixtures Containing an Inorganic Compound

Water Ethene

[7732-18-5] [74-85-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 363.20 -94 ± 6 85-lan/wor 363.20 -99 ± 8 88-wor/lan 373.60 -80 ± 4 85-lan/wor 373.60 -81 ± 5 88-wor/lan ___________

______________________________________________

Water Chloroethane

[7732-18-5] [75-00-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 363.20 -221 ± 6 88-wor/lan 373.20 -234 ± 5 88-wor/lan 383.20 -222 ± 3 88-wor/lan 393.20 -208 ± 7 88-wor/lan ___________

T K 383.20 383.20 393.30 393.40 ___________

______________________________________________

Water Ethane

T K 403.20 413.20 423.20 ___________

[7732-18-5] [74-84-0]

H2O C2H4

MW = 18.02 MW = 28.05

B12 ± δB12 cm3· mol-1 -79 ± 4 -81 ± 7 -79 ± 5 -80 ± 4

302

Ref.

______________________________________________

H2O C2H5Cl

85-lan/wor 88-wor/lan 88-wor/lan 85-lan/wor

MW = 18.02 MW = 64.51

B12 ± δB12 cm3· mol-1 -198 ± 7 -178 ± 5 -175 ± 7

303

Ref.

______________________________________________

H2O C2H6

88-wor/lan 88-wor/lan 88-wor/lan

MW = 18.02 MW = 30.07

304

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 2.9694 ⋅ 10 + 2.9111 ⋅ 104/(T/K) − 1.5954 ⋅ 107/(T/K)2 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -109.9 ± 12 -76.8 ± 10

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -56.6 ± 8 -43.8 ± 6

T/K 500

(B12 ± 2σest)/cm3· mol-1 -35.3 ± 4

Table 2. Experimental B12 values with uncertainty. T K 298.00 298.15 323.00 323.15 348.00 348.15 363.20 363.20 373.00 373.15 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -110 ± 5.3 1.7 -125 ± 6.0 -13.5 -94 ± 4.8 -1.5 -94 ± 3.0 -1.6 -82 ± 4.5 -4.2 -78 ± 5.0 -0.3 -63 ± 7.0 7.5 -61 ± 10.0 9.5 -72 ± 4.2 -5.7 -72 ± 2.0 -5.7 __________________---____________________

_____________________________________

Ref. (Symbol in Fig. 1) 80-wor/col (▲) 71-coa/kin (×) 80-wor/col (▲) 71-coa/kin (×) 80-wor/col (▲) 71-coa/kin (×) 85-lan/wor (z) 88-wor/lan (Ο) 80-wor/col(▲) 71-coa/kin (×)

T K 373.15 373.60 373.60 383.20 383.20 393.30 393.40 423.00 473.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 c m3· mol-1 -73 ± 40.0 -6.7 -62 ± 10.0 4.1 -59 ± 15.0 7.1 -62 ± 10.0 0.4 -59 ± 9.0 3.4 -50 ± 9.0 8.8 -57 ± 8.0 1.8 -53 ± 3.6 -3.0 -41 ± 3.2 -1.5

------______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 80-mal-1 (†) 85-lan/wor (z) 88-wor/lan (Ο) 85-lan/wor (z) 88-wor/lan (Ο) 88-wor/lan (Ο) 85-lan/wor (z) 80-wor/col (▲) 80-wor/col (▲)

cont. Landolt-Börnstein New Series IV/21B

152

2 Mixtures Containing an Inorganic Compound

Water + Ethane (cont.)

40 (B 12 - B 12calc )/cm3·mol-1

30 20 10 0 -10 -20 -30 -40 -50 275

300

325

350

375

400

425

450

475

500

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Water Ethanol

[7732-18-5] [64-17-5]

H2O C2H6O

MW = 18.02 MW = 46.07

305

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 1.6626 ⋅ 103 + 1.6933 ⋅ 106/(T/K) − 4.7847 ⋅ 108/(T/K)2 T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -419.8 ± 20 -262.5 ± 16

T/K 500 550

(B12 ± 2σest)/cm3· mol-1 -189.9 ± 14 -165.6 ± 12

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol T 3 -1 3 -1 K cm · mol cm · mol in Fig. 1) K 400.00 -422 ± 22.0 -2.2 81-nop/ram (▲) 475.00 425.00 -325 ± 17.0 2.3 81-nop/ram (▲) 500.00 450.00 -261 ± 15.0 1.5 81-nop/ram (▲) 525.00 _________

______________________________________

_____________________________________

_________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -220 ± 13 -1.6 -191 ± 14 -1.1 -172 ± 13 1.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-nop/ram (▲) 81-nop/ram (▲) 81-nop/ram (▲)

cont. Landolt-Börnstein New Series IV/21B

153

2 Mixtures Containing an Inorganic Compound

Water + Ethanol (cont.) 20 15

5

3

(B 12 - B 12calc)/cm ·mol

-1

10

0 -5 -10 -15 -20 -25 400

420

440

460

480

500

520

540

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Water Propene

[7732-18-5] [115-07-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 363.20 -122 ± 7 86-lan/wor 373.20 -116 ± 7 86-lan/wor 363.20 -127 ± 8 88-wor/lan 373.20 -120 ± 8 88-wor/lan ___________

Water Propane

______________________________________________

T K 383.20 393.20 383.20 393.20 ___________

[7732-18-5] [74-98-6]

H2O C3H6

MW = 18.02 MW = 42.08

B12 ± δB12 cm3· mol-1 -113 ± 6 -105 ± 5 -115 ± 7 -105 ± 6

306

Ref.

_ ____________________________________________

H2O C3H8

86-lan/wor 86-lan/wor 88-wor/lan 88-wor/lan

MW = 18.02 MW = 44.10

307

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.9447 · 102 − 1.0179 · 105/(T/K) cont.

Landolt-Börnstein New Series IV/21B

154

2 Mixtures Containing an Inorganic Compound

Water + Propane (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 350 -96.4 ± 10

T/K 400

(B12 ± 2σest)/cm3· mol-1 -60.0 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 363.20 -83.0 ± 8.0 2.8 86-lan/wor (▲) 363.20 -90.0 ± 10.0 -4.2 88-wor/lan („) 373.20 -79.0 ± 10.0 -0.7 86-lan/wor (▲) 373.60 -82.0 ± 11.0 -4.0 88-wor/lan („) 377.60 -72.0 ± 40.0 3.1 80-mal-1 (…) 383.20 -65.0 ± 6.0 6.2 86-lan/wor (▲) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 383.20 393.20 393.30 473.15 498.15 523.15 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -67.0 ± 7.0 4.2 -68.0 ± 8.0 -3.6 -68.0 ± 9.0 -3.6 -80.0 ± 40.0 -59.3 -45.0 ± 20.0 -35.1 -41.0 ± 20.0 -40.9 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-wor/lan („) 86-lan/wor (▲) 88-wor/lan („) 79-skr 1 79-skr 1 79-skr 1

50

3

(B 12 - B 12calc)/cm ·mol

-1

40 30 20 10 0 -10 -20 -30 -40 350

360

370

380

390

400

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

155

2 Mixtures Containing an Inorganic Compound

Water Tetrahydrofuran

[7732-18-5] [109-99-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -8800 ± 30 73-tre/boc 298.25 -8670 ± 30 73-tre/boc 299.05 -7800 ± 30 73-tre/boc 299.25 -7350 ± 30 73-tre/boc 299.75 -6850 ± 30 73-tre/boc 300.65 -6070 ± 30 73-tre/boc ___________

_____--_________________________________________

Water Butane

T K 301.95 302.55 303.65 304.45 304.58 ___________

[7732-18-5] [106-97-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 363.20 -95 ± 8 86-lan/wor 363.20 -107 ± 9 88-wor/lan 373.20 -94 ± 10 86-lan/wor 373.20 -105 ± 11 88-wor/lan ___________

______________________________________________

Water Pentane

T K 383.20 383.30 393.20 393.30 ___________

[7732-18-5] [109-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 363.20 -121 ± 19 88-wor/lan 373.20 -123 ± 15 88-wor/lan 383.20 -113 ± 17 88-wor/lan ___________

______________________________________________

Water Fluorobenzene

T K 393.20 423.20 ___________

[7732-18-5] [462-06-6]

H2O C4H8O

MW = 18.02 MW = 72.11

B12 ± δB12 cm3· mol-1 -5060 ± 30 -4580 ± 30 -4160 ± 30 -4010 ± 30 -3670 ± 30

308

Ref.

______________________________________________

H2O C4H10

73-tre/boc 73-tre/boc 73-tre/boc 73-tre/boc 73-tre/boc

MW = 18.02 MW = 58.12

B12 ± δB12 cm3· mol-1 -97 ± 3 -104 ± 3 -91 ± 6 -96 ± 7

309

Ref.

______________________________________________

H2O C5H12

86-lan/wor 88-wor/lan 86-lan/wor 88-wor/lan

MW = 18.02 MW = 72.15

B12 ± δB12 cm3· mol-1 -107 ± 19 -86 ± 8

310

Ref.

______________________________________________

H2O C6H5F

88-wor/lan 88-wor/lan

MW = 18.02 MW = 96.10

311

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 8.1996 ⋅ 102 + 7.8141 ⋅ 105/(T/K) − 2.1661 ⋅ 108/(T/K)2 T/K 400 425

(B12 ± 2σest)/cm3· mol-1 -220.2 ± 40 -180.6 ± 40

T/K 450 475

(B12 ± 2σest)/cm3· mol-1 -153.2 ± 40 -134.9 ± 40

T/K 500 525

(B12 ± 2σest)/cm3· mol-1 -123.6 ± 35 -117.4 ± 30

cont. Landolt-Börnstein New Series IV/21B

156

2 Mixtures Containing an Inorganic Compound

Water + Fluorobenzene (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol T 3 -1 3 -1 K cm · mol cm · mol in Fig. 1) K 400.00 -221 ± 40 -0.8 81-nop/ram (▲) 475.00 425.00 -179 ± 40 1.6 81-nop/ram (▲) 500.00 450.00 -153 ± 40 0.2 81-nop/ram (▲) 525.00 _________

______________________________________

_____________________________________

_________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -136 ± 40 -1.1 -124 ± 35 -0.4 -117 ± 30 0.4 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-nop/ram (▲) 81-nop/ram (▲) 81-nop/ram (▲)

50 40

-1

10

(B 12 - B 12calc)/cm ·mol

20

3

30

0 -10 -20 -30 -40 -50 400

425

450

475

500

525

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Water Benzene

[7732-18-5] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 363.20 -276.0 ± 8.0 85-wor/lan 363.20 -285.0 ± 7.0 88-wor/lan 373.20 -261.0 ± 8.0 85-wor/lan 373.20 -267.0 ± 6.0 88-wor/lan 383.20 -245.0 ± 10.0 85-wor/lan ___________

_____________________________________________

T K 383.20 393.20 393.20 403.20 413.20 ___________

H2O C6H6

MW = 18.02 MW = 78.11

B12 ± δB12 cm3· mol-1 -249.0 ± 11.0 -240.0 ± 6.0 -242.0 ± 7.0 -232.0 ± 7.0 -217.0 ± 10.0

312

Ref.

______________________________________________

88-wor/lan 85-wor/lan 88-wor/lan 97-wor/lan 97-wor/lan cont. Landolt-Börnstein New Series IV/21B

157

2 Mixtures Containing an Inorganic Compound

Water + Benzene (cont.) Table 2. (cont.) T B12 ± δB12 K cm3· mol-1 423.20 -214.0 ± 7.0 433.20 -204.0 ± 7.0

T K 623.15

B12 ± δB12 cm3· mol-1 -24.9 ± 0.8

Table 3. Experimental Bm values with uncertainty. T x2 Ref. Bm ± δBm 3 -1 K cm · mol 623.15 0.000 -91.3 ± 2.0 96-abd/baz 623.15 0.276 -52.9 ± 1.6 96-abd/baz 623.15 0.639 -145.2 ± 1.8 96-abd/baz

T K 623.15 623.15 623.15

x2

Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm K 103· cm6· mol-2 623.15 0.000 0.6 ± 0.1 96-abd/baz 623.15 0.276 -5.2 ± 0.3 96-abd/baz 623.15 0.639 12.3 ± 0.1 96-abd/baz

T K 623.15 623.15 623.15

___________

___________

___________

Ref.

___________

_____________________________________________

97-wor/lan 97-wor/lan

_________________________________________

___________________________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 623.15 18.4 ± 0.8 96-abd/baz ___________

__________________________________________________________

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 623.15 -19.7 ± 0.8 96-abd/baz ___________

__________________________________________________________

Water Cyclohexane

Landolt-Börnstein New Series IV/21B

T K

___________

T K

___________

[7732-18-5] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 363.20 -129.0 ± 12.0 85-wor/lan 363.20 -143.0 ± 6.0 88-wor/lan 373.20 -116.0 ± 12.0 85-wor/lan 373.20 -125.0 ± 7.0 88-wor/lan 382.80 -126.0 ± 9.0 88-wor/lan 383.20 -121.0 ± 16.0 85-wor/lan ___________

___________

___________

-_____________________________________________

T K 393.20 393.30 403.20 413.20 423.20 433.20 ___________

Ref.

______________________________________________

96-abd/baz

Bm ± δBm cm3· mol-1 -186.1 ± 0.8 -236.8 ± 2.6 -254.4 ± 2.5

Ref.

__________________________________________

0.832 0.931 1.000

x2

Cm ± δCm 103· cm6· mol-2 17.3 ± 0.1 29.7 ± 0.2 27.7 ± 0.4

96-abd/baz 96-abd/baz 96-abd/baz

Ref.

___________________________________________________________

0.832 0.931 1.000

C112 ± δC112 103· cm6· mol-2

96-abd/baz 96-abd/baz 96-abd/baz

Ref.

__________________________________________________________

C122 ± δC122 103· cm6· mol-2

Ref.

__________________________________________________________

H2O C6H12

MW = 18.02 MW = 84.16

B12 ± δB12 cm3· mol-1 -116.0 ± 26.0 -118.0 ± 1.3 -126.0 ± 10.0 -122.0 ± 12.0 -119.0 ± 12.0 -105.0 ± 9.0

313

Ref.

____________________________________________

85-wor/lan 88-wor/lan 97-wor/lan 97-wor/lan 97-wor/lan 97-wor/lan

158

2 Mixtures Containing an Inorganic Compound

Water Hexane

[7732-18-5] [110-54-3]

H2O C6H14

MW = 18.02 MW = 86.18

314

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.6413 · 102 − 1.0807 · 105/(T/K) (B12 ± 2σest)/cm3· mol-1 -144.6 ± 15 -106.0 ± 10

T/K 350 400

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -76.0 ± 10 -52.0 ± 10

(B12 ± 2σest)/cm3· mol-1 -32.4 ± 10 -16.0 ± 10

T/K 550 600

30

3

(B 12 - B 12calc)/cm ·mol

-1

20 10 0 -10 -20 -30 300

350

400

450

500

550

600

650

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 363.20 -137.0 ± 21.0 -3.6 84-smi/fah (…) 363.20 -135.0 ± 21.0 -1.6 88-wor/lan (▲) 373.20 -119.0 ± 17.0 6.4 84-smi/fah (…) 373.20 -121.0 ± 17.0 4.4 88-wor/lan (▲) 383.20 -125.0 ± 11.0 -7.1 84-smi/fah (…) _________

______________________________________

_____________________________________

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 383.20 -123.0 ± 11.0 -5.1 393.20 -110.0 ± 9.0 0.7 393.20 -107.0 ± 9.0 3.7 423.20 -88.0 ± 11.0 3.2 423.20 -86.0 ± 11.0 5.2 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-wor/lan (▲) 84-smi/fah (…) 88-wor/lan (▲) 84-smi/fah (…) 88-wor/lan (▲) cont.

Landolt-Börnstein New Series IV/21B

159

2 Mixtures Containing an Inorganic Compound

Water + Hexane (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc 3 -1 K cm · mol cm3· mol-1 473.15 -85.0 ± 30.0 -20.7 498.15 -89.0 ± 30.0 -36.2 523.15 -85.0 ± 30.0 -42.6 1 Not included in Figure 1. _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 79-skr 1 79-skr 1 79-skr 1

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 523.15 0.013 -409.6 ± 0.4 92-abd/baz 523.15 0.048 -382.7 ± 0.2 92-abd/baz 523.15 0.141 -237.4 ± 1.1 92-abd/baz 523.15 0.353 -303.6 ± 0.2 92-abd/baz 523.15 0.000 -448.6 ± 3.7 96-abd/baz 523.15 0.060 -371.3 ± 1.5 96-abd/baz 523.15 0.193 -335.7 ± 1.2 96-abd/baz 523.15 0.440 -239.5 ± 1.5 96-abd/baz 523.15 0.723 -203.0 ± 0.7 96-abd/baz 523.15 1.000 -149.1 ± 0.3 96-abd/baz 573.15 0.018 -318.9 ± 0.5 92-abd/baz 573.15 0.037 -296.0 ± 0.6 92-abd/baz 573.15 0.127 -220.1 ± 0.5 92-abd/baz 573.15 0.328 -144.9 ± 0.3 92-abd/baz 573.15 0.000 -354.4 ± 3.0 96-abd/baz ___________

__________________________________________

Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. K 103· cm6· mol-2 523.15 0.013 60.8 ± 0.1 92-abd/baz 523.15 0.048 75.8 ± 0.1 92-abd/baz 523.15 0.141 105.7 ± 0.2 92-abd/baz 523.15 0.353 24.3 ± 0.5 92-abd/baz 523.15 0.000 69.6 ± 0.3 96-abd/baz 523.15 0.060 50.4 ± 0.2 96-abd/baz 523.15 0.193 58.5 ± 0.3 96-abd/baz 523.15 0.440 58.3 ± 0.2 96-abd/baz 523.15 0.723 56.7 ± 0.1 96-abd/baz 523.15 1.000 -8.8 ± 0.1 96-abd/baz 573.15 0.018 52.3 ± 0.2 92-abd/baz 573.15 0.037 49.8 ± 0.2 92-abd/baz 573.15 0.127 33.8 ± 0.0 92-abd/baz 573.15 0.328 -9.0 ± 0.2 92-abd/baz 573.15 0.081 49.6 ± 0.2 96-abd/baz ___________

__________________________________________________________

T K 523.15 573.15 623.15 _________

T K 573.15 573.15 573.15 573.15 573.15 623.15 623.15 623.15 623.15 623.15 623.15 623.15 623.15 623.15 623.15 ___________

T K 573.15 573.15 573.15 573.15 623.15 623.15 623.15 623.15 623.15 623.15 623.15 623.15 623.15 623.15 ___________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -50.0 ± 1.0 -7.6 -25.6 ± 0.8 -1.2 -7.1 ± 0.6 2.2 ______________________________________

x1

_____________________________________

Ref. (Symbol in Fig. 1) 96-abd/baz (z) 96-abd/baz (z) 96-abd/baz (z)

Bm ± δBm cm3· mol-1 -302.0 ± 2.0 -267.7 ± 1.5 -165.0 ± 1.1 -87.0 ± 0.7 -115.9 ± 0.3 -250.4 ± 1.3 -202.7 ± 1.3 -135.3 ± 0.6 -129.7 ± 0.1 -293.1 ± 3.0 -231.6 ± 0.8 -169.4 ± 0.3 -94.3 ± 0.2 -74.8 ± 0.8 -91.3 ± 0.1

Ref.

__________________________________________

0.081 0.156 0.410 0.700 1.000 0.025 0.069 0.183 0.461 0.000 0.107 0.262 0.517 0.803 1.000

x1

Cm ± δCm 103· cm6· mol-2 41.0 ± 0.2 18.9 ± 0.1 -4.0 ± 0.1 -0.5 ± 0.1 45.9 ± 0.4 35.8 ± 0.4 14.5 ± 0.4 9.1 ± 0.1 55.3 ± 0.2 39.1 ± 0.2 25.0 ± 0.1 7.5 ± 0.1 1.4 ± 0.2 0.6 ± 0.1

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 92-abd/baz 92-abd/baz 92-abd/baz 92-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

Ref.

__________________________________________________________

0.156 0.410 0.700 1.000 0.025 0.069 0.183 0.461 0.000 0.107 0.262 0.517 0.803 1.000

96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 92-abd/baz 92-abd/baz 92-abd/baz 92-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz 96-abd/baz

cont. Landolt-Börnstein New Series IV/21B

160

2 Mixtures Containing an Inorganic Compound

Water + Hexane (cont.) Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 523.15 9.3 ± 0.1 96-abd/baz 573.15 24.9 ± 0.2 96-abd/baz ___________

__________________________________________________________

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 523.15 132.9 ± 1.0 96-abd/baz 573.15 -19.7 ± 0.2 96-abd/baz ___________

__________________________________________________________

Water Toluene

T K 623.15 ___________

T K 623.15 ___________

[7732-18-5] [108-88-3]

C112 ± δC112 103· cm6· mol-2 4.2 ± 0.1

Ref.

C122 ± δC122 103· cm6· mol-2 0.3 ± 0.1

Ref.

__________________________________________________________

96-abd/baz

__________________________________________________________

H2O C7H8

96-abd/baz

MW = 18.02 MW = 92.14

315

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 5.6094 ⋅ 103 − 8.2825 ⋅ 106/(T/K) + 4.0104 ⋅ 109/(T/K)2 − 6.5703 ⋅ 1011/(T/K)3 T/K 400 425

(B12 ± 2σest)/cm3· mol-1 -297.9 ± 60 -234.8 ± 40

T/K 450 475

(B12 ± 2σest)/cm3· mol-1 -201.9 ± 30 -183.4 ± 30

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 400.00 -304 ± 60.0 -6.1 81-nop/ram (×) 425.00 -224 ± 40.0 10.8 81-nop/ram (×) 450.00 -208 ± 30.0 -6.1 81-nop/ram (×) _________

______________________________________

_____________________________________

T K 475.00 500.00 525.00 _________

T/K 500 525

(B12 ± 2σest)/cm3· mol-1 -170.2 ± 30 -157.1 ± 30

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -183 ± 30 0.4 -168 ± 30 2.2 -159 ± 30 -1.9 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-nop/ram (×) 81-nop/ram (×) 81-nop/ram (×)

cont. Landolt-Börnstein New Series IV/21B

161

2 Mixtures Containing an Inorganic Compound

Water + Toluene (cont.) 80 60

20

3

(B 12 - B 12calc)/cm ·mol

-1

40

0 -20 -40 -60 -80 375

400

425

450

475

500

525

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Water Heptane

[7732-18-5] [142-82-5]

H2O C7H16

MW = 18.02 MW = 100.20

316

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3·mol-1 = − 5.7138 · 102 + 4.7670 · 105/(T/K) − 1.2224 · 108/(T/K)2 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -340.6 ± 30 -207.3 ± 30

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -143.6 ± 30 -115.7 ± 30

T/K 500

(B12 ± 2σest)/cm3· mol-1 -106.9 ± 30

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 298.00 -336.0 ± 15.1 12.2 323.00 -284.0 ± 13.5 -16.8 _________

______________________________________

Landolt-Börnstein New Series IV/21B

_____________________________________

Ref. (Symbol in Fig. 1) 80-wor/col (×) 80-wor/col (×)

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 348.00 -242.0 ± 12.3 -31.1 363.20 -137.0 ± 21.0 48.5 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 80-wor/col (×) 84-smi/fah (▲) cont.

162

2 Mixtures Containing an Inorganic Compound

Water + Heptane (cont.) Table 2. (cont.) Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -158.0 ± 21.0 27.5 -207.0 ± 11.2 -35.0 -206.0 ± 20.0 -34.2 -119.0 ± 24.0 52.7 -144.0 ± 24.0 27.7 -143.0 ± 22.0 16.8 -156.0 ± 22.0 3.8 -113.0 ± 13.0 36.7

T K 363.20 373.00 373.15 373.20 373.20 383.20 383.20 393.20 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-wor/lan („) 80-wor/col (×) 81-ric/wor (…) 84-smi/fah (▲) 88-wor/lan („) 84-smi/fah (▲) 88-wor/lan („) 84-smi/fah (▲)

T K 393.20 398.15 423.00 423.15 423.20 423.20 473.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -122.0 ± 13.0 27.7 -185.0 ± 15.0 -39.8 -154.0 ± 9.6 -26.4 -170.0 ± 17.0 -42.5 -96.0 ± 13.0 31.5 -101.0 ± 13.0 26.5 -116.0 ± 8.5 -6.1 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-wor/lan („) 81-ric/wor (…) 80-wor/col (×) 81-ric/wor (…) 84-smi/fah (▲) 88-wor/lan („) 80-wor/col (×)

100 80

40

3

(B 12 - B 12calc)/cm·m ol

-1

60

20 0 -20 -40 -60 -80 280

300

320

340

360

380

400

420

440

460

480

500

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Water Octane

[7732-18-5] [111-65-9]

H2O C8H18

MW = 18.02 MW = 114.23

317

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.7899 · 102 − 1.2172 · 105/(T/K) cont.

Landolt-Börnstein New Series IV/21B

163

2 Mixtures Containing an Inorganic Compound

Water + Octane (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 350 -168.8 ± 15 400 -125.3 ± 15

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -91.5 ± 10 -64.5 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 363.20 -145.0 ± 22.0 11.1 84-smi/fah (…) 363.20 -150.0 ± 22.0 6.1 88-wor/lan (▲) 373.20 -137.0 ± 16.0 10.2 84-smi/fah (…) 373.20 -141.0 ± 16.0 6.2 88-wor/lan (▲) 383.20 -131.0 ± 13.0 7.7 84-smi/fah (…) 383.20 -147.0 ± 13.0 -8.3 88-wor/lan (▲) _________

______________________________________

_____________________________________

T K 393.20 393.20 423.20 423.20 523.15 623.15 _________

T/K 550 600

(B12 ± 2σest)/cm3· mol-1 -42.3 ± 10 -23.9 ± 10

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -115.0 ± 12.0 15.6 -134.0 ± 12.0 -3.4 -103.0 ± 10.0 5.6 -123.0 ± 10.0 -14.4 -90.0 ± 40.0 -36.3 -16.3 ± 0.8 0.0 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 84-smi/fah (…) 88-wor/lan (▲) 84-smi/fah (…) 88-wor/lan (▲) 79-skr (×) 96-abd/baz („)

40 30

3

(B 12 - B 12calc)/cm·m ol

-1

20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 350

400

450

500

550

600

650

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

164

2 Mixtures Containing an Inorganic Compound

Water + Octane (cont.) Table 3. Experimental Bm values with uncertainty. x2 Ref. T Bm ± δBm K cm3· mol-1 623.15 0.000 -91.3 ± 0.1 96-abd/baz 623.15 0.232 -89.1 ± 1.0 96-abd/baz 623.15 0.545 -185.1 ± 0.7 96-abd/baz

T K 623.15 623.15 623.15

Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 623.15 0.000 0.6 ± 0.1 96-abd/baz 623.15 0.232 3.2 ± 0.1 96-abd/baz 623.15 0.545 24.6 ± 0.1 96-abd/baz

T K 623.15 623.15 623.15

___________

__________________________________________

___________

__________________________________________________________

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 3 6 -2 K 10 · cm · mol 623.15 2.3 ± 0.1 96-abd/baz ___________

__________________________________________________________

Table 7. Experimental C122 values with uncertainty. T Ref. C122 ± δC122 K 103· cm6· mol-2 623.15 8.0 ± 0.2 96-abd/baz ___________

__________________________________________________________

Water 1,2-Diphenoxyethane

______________________________________________

Hydrogen sulfide Nitrogen

__________________________________________

x2

Bm ± δBm cm3· mol-1 -274.1 ± 0.1 -359.3 ± 1.2 -517.8 ± 2.0

0.715 0.847 1.000

x2

Cm ± δCm 10 · cm6· mol-2 45.2 ± 0.1 66.1 ± 0.1 115.0 ± 0.5

0.715 0.847 1.000

T K

C122 ± δC122 103· cm6· mol-2

Ref.

T K 393.20 423.20

T K 333.10 352.90 352.90 372.10 372.10 ___________

Ref.

3

Ref.

___________

96-abd/baz 96-abd/baz 96-abd/baz

___________________________________________________________

C112 ± δC112 103· cm6· mol-2

___________

Ref.

__________________________________________

T K

___________

[7783-06-4] [7727-37-9]

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 292.80 0.090 -9.5 ± 0.5 75-rob/ham 292.80 0.220 -26.4 ± 1.3 75-rob/ham 317.30 0.090 -4.9 ± 0.2 75-rob/ham 317.30 0.220 -21.5 ± 1.0 75-rob/ham 333.10 0.090 -2.6 ± 0.1 75-rob/ham ___________

___________

[7732-18-5] [104-66-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 363.20 -102 ± 19 84-smi/fah 373.20 -106 ± 15 84-smi/fah 383.20 -99 ± 17 84-smi/fah ___________

___________

96-abd/baz 96-abd/baz 96-abd/baz

__________________________________________________________

__________________________________________________________

H2O C14H14O2

MW = 18.02 MW = 214.26

B12 ± δB12 cm3· mol-1 -97 ± 19 -78 ± 80

318

Ref.

______________________________________________

H2S N2 x1

84-smi/fah 84-smi/fah

MW = 34.08 MW = 28.01 Bm ± δBm cm3· mol-1 -18.0 ± 0.9 -0.3 ± 0.0 -13.3 ± 0.7 1.9 ± 0.1 -8.8 ± 0.4

319

Ref.

_______________________________________

0.220 0.090 0.220 0.090 0.220

75-rob/ham 75-rob/ham 75-rob/ham 75-rob/ham 75-rob/ham

Landolt-Börnstein New Series IV/21B

165

2 Mixtures Containing an Inorganic Compound

Hydrogen sulfide Methane

[7783-06-4] [74-82-8]

H2S CH4

MW = 34.08 MW = 16.04

320

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 5.4062 ⋅ 10 − 2.1818 ⋅ 104/(T/K) − 2.1814 ⋅ 106/(T/K)2 (B12 ± 2σest)/cm3· mol-1 -42.9 ± 20 -26.1 ± 15

T/K 300 350

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -14.1 ± 10 -5.2 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol T 3 -1 3 -1 K cm · mol cm · mol in Fig. 1) K 300.00 -42.9 ± 20 0.00 90-woo/zen (▲) 450.00 350.00 -26.1 ± 15 -0.02 90-woo/zen (▲) 500.00 400.00 -14.1 ± 10 0.02 90-woo/zen (▲) _________

______________________________________

_____________________________________

_________

T/K 500

Bexp ± δB cm3· mol-1 -5.2 ± 5 1.7 ± 2 ______________________________________

(B12 ± 2σest)/cm3· mol-1 1.7 ± 2

Bexp - Bcalc cm3· mol-1 -0.01 0.00 _____________________________________

Ref. (Symbol in Fig. 1) 90-woo/zen (▲) 90-woo/zen (▲)

25 20

(B 12 - B 12calc)/cm3·mol-1

15 10 5 0 -5 -10 -15 -20 -25 250

300

350

400

450

500

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

166

2 Mixtures Containing an Inorganic Compound

Hydrogen sulfide Ethane

[7783-06-4] [74-84-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -128.5 ± 2.4 71-kho/rob 348.15 -110.4 ± 2.1 71-kho/rob ___________

______________________________________________

Ammonia Helium

T K 373.15 398.15 ___________

[7664-41-7] [7440-59-7]

H2S C2H6

MW = 34.08 MW = 30.07

B12 ± δB12 cm3· mol-1 -95.2 ± 1.8 -79.3 ± 1.5

321

Ref.

______________________________________________

H3N He

71-kho/rob 71-kho/rob

MW = 17.03 MW = 4.00

322

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.6769 · 10 − 8.1190 · 103/(T/K) (B12 ± 2σest)/cm3· mol-1 2.9 ± 5 9.7 ± 5

T/K 240 300

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 13.6 ± 4 16.5 ± 3

T/K 450

(B12 ± 2σest)/cm3· mol-1 18.7 ± 3

25

15

3

(B 12 - B 12calc)/cm ·mol

-1

20

10 5 0 -5 -1 0 200

250

300

350

400

450

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

167

2 Mixtures Containing an Inorganic Compound

Ammonia + Helium (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 238.00 15.6 ± 10.0 12.9 86-eli/hoa (▲) 253.00 17.2 ± 10.0 12.5 86-eli/hoa (▲) 273.00 20.1 ± 8.0 13.1 86-eli/hoa (▲) 296.20 20.8 ± 8.0 11.4 86-eli/hoa (▲) 298.15 9.2 ± 2.0 -0.3 92-glo („) _________

______________________________________

_____________________________________

T K 323.15 348.15 373.15 398.15 423.15 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 11.6 ± 2.0 0.0 13.6 ± 1.5 0.2 15.1 ± 1.0 0.1 16.9 ± 0.5 0.5 17.2 ± 0.5 -0.4 _________--------------_______________________

_____________________________________

Ref. (Symbol in Fig. 1) 92-glo („) 92-glo („) 92-glo („) 92-glo („) 92-glo („)

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 298.15 12.6 ± 0.1 92-glo 323.15 6.5 ± 0.1 92-glo 348.15 3.7 ± 0.1 92-glo

T K 373.15 398.15 423.15

C112 ± δC112 103· cm6· mol-2 2.2 ± 0.1 1.4 ± 0.1 1.3 ± 0.1

Ref.

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 298.15 -0.7 ± 0.1 92-glo 323.15 -0.4 ± 0.1 92-glo 348.15 -0.4 ± 0.1 92-glo

T K 373.15 398.15 423.15

C122 ± δC122 103· cm6· mol-2 -0.5 ± 0.1 -0.5 ± 0.1 -0.4 ± 0.1

Ref.

___________

__________________________________________________________

___________

__________________________________________________________

Ammonia Nitrogen

___________

___________

[7664-41-7] [7727-37-9]

__________________________________________________________

92-glo 92-glo 92-glo

__________________________________________________________

H3N N2

92-glo 92-glo 92-glo

MW = 17.03 MW = 28.01

323

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 1.4663 ⋅ 10 + 2.5143 ⋅ 104/(T/K) − 9.6702 ⋅ 106/(T/K)2 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -38.3 ± 3 -21.8 ± 3

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -12.2 ± 3 -6.5 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.15 -39.3 ± 3.0 -0.2 92-glo (▲) 323.15 -29.0 ± 3.0 0.5 92-glo (▲) 348.15 -22.5 ± 3.0 -0.3 92-glo (▲) _________

______________________________________

_____________________________________

T/K

(B12 ± 2σest)/cm3· mol-1

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 373.15 -16.6 ± 3.0 0.1 398.15 -12.9 ± 3.0 -0.4 423.15 -9.0 ± 3.0 0.3 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 92-glo (▲) 92-glo (▲) 92-glo (▲)

cont. Landolt-Börnstein New Series IV/21B

168

2 Mixtures Containing an Inorganic Compound

Ammonia + Nitrogen (cont.) 4 3

3

(B 12 - B 12calc)/cm·m ol

-1

2 1 0 -1 -2 -3 -4 275

300

325

350

375

400

425

450

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 298.15 18.1 ± 0.1 92-glo 323.15 10.0 ± 0.1 92-glo 348.15 6.6 ± 0.1 92-glo

T K 373.15 398.15 423.15

C112 ± δC112 103· cm6· mol-2 4.5 ± 0.1 2.9 ± 0.1 1.5 ± 0.1

Ref.

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 298.15 -3.5 ± 0.1 92-glo 323.15 -2.5 ± 0.1 92-glo 348.15 -1.5 ± 0.1 92-glo

T K 373.15 398.15 423.15

C122 ± δC122 103· cm6· mol-2 -0.5 ± 0.1 0.6 ± 0.1 1.6 ± 0.1

Ref.

___________

___________

__________________________________________________________

__________________________________________________________

___________

___________

__________________________________________________________

92-glo 92-glo 92-glo

__________________________________________________________

92-glo 92-glo 92-glo

Landolt-Börnstein New Series IV/21B

169

2 Mixtures Containing an Inorganic Compound

Ammonia Neon

[7664-41-7] [7440-01-9]

H3N Ne

MW = 17.03 MW = 20.18

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.00 14 ± 5 78-myr/tra

T K 323.00

B12 ± δB12 cm3· mol-1 14 ± 5

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 298.00 0.1 ± 0.1 78-myr/tra

T K 323.00

C112 ± δC112 103· cm6· mol-2 1.0 ± 0.1

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 298.00 0.2 ± 0.1 78-myr/tra

T K 323.00

C122 ± δC122 103· cm6· mol-2 0.1 ± 0.1

___________

______________________________________________

___________

__________________________________________________________

___________

__________________________________________________________

Ammonia Methane

___________

___________

___________

[7664-41-7] [74-82-8]

324

Ref.

______________________________________________

78-myr/tra

Ref.

__________________________________________________________

78-myr/tra

Ref.

__________________________________________________________

H3N CH4

78-myr/tra

MW = 17.03 MW = 16.04

325

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 7.5406 ⋅ 10 + 6.6052 ⋅ 104/(T/K) − 1.8725 ⋅ 107/(T/K)2 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -63.3 ± 4 -39.5 ± 2

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -27.3 ± 1 -21.1 ± 1

(B12 ± 2σest)/cm3· mol-1

T/K

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.15 -66.0 ± 4.0 -1.5 92-glo (▲) 323.15 -49.5 ± 3.0 0.8 92-glo (▲) 348.15 -39.0 ± 2.0 1.2 92-glo (▲)

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 373.15 -33.3 ± 1.5 -0.4 398.15 -28.0 ± 1.0 -0.4 423.15 -23.6 ± 1.0 0.3

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 298.15 18.2 ± 0.1 92-glo 323.15 12.4 ± 0.1 92-glo 348.15 8.8 ± 0.1 92-glo

T K 373.15 398.15 423.15

_________

___________

______________________________________

_____________________________________

__________________________________________________________

_________

___________

______________________________________

_____________________________________

C112 ± δC112 103· cm6· mol-2 7.0 ± 0.1 5.5 ± 0.1 4.2 ± 0.1

Ref. (Symbol in Fig. 1) 92-glo (▲) 92-glo (▲) 92-glo (▲)

Ref.

__________________________________________________________

92-glo 92-glo 92-glo

cont. Landolt-Börnstein New Series IV/21B

170

2 Mixtures Containing an Inorganic Compound

Ammonia + Methane (cont.) 4 3

(B 12 - B 12calc)/cm 3·mol-1

2 1 0 -1 -2 -3 -4 -5 -6 275

300

325

350

375

400

425

450

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 298.15 -10.0 ± 0.1 92-glo 323.15 -8.0 ± 0.1 92-glo 348.15 -6.5 ± 0.1 92-glo ___________

__________________________________________________________

Ammonia Ethene

[7664-41-7] [74-85-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 302.84 -221.0 ± 6.6 71-rae/fre ___________

T K 373.15 398.15 423.15 ___________

______________________________________________

T K 313.84 ___________

C122 ± δC122 103· cm6· mol-2 -4.9 ± 0.1 -3.3 ± 0.1 -1.8 ± 0.1

Ref.

__________________________________________________________

H3N C2H4

92-glo 92-glo 92-glo

MW = 17.03 MW = 28.05

B12 ± δB12 cm3· mol-1 -195.0 ± 5.9

326

Ref.

_____________________________________________

71-rae/fre

Landolt-Börnstein New Series IV/21B

171

2 Mixtures Containing an Inorganic Compound

Ammonia [7664-41-7] 3,7-Dihydro-1,3,7-trimethyl-1H-purine-2,6-dione [58-08-2] Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 346.45 -1750 ± 100 88-kim/len 396.65 -930 ± 80 88-kim/len 416.65 -749 ± 50 88-kim/len ___________

______________________________________________

Helium Krypton

H3N

327

C8H10N4O2 MW = 194.19 B12 ± δB12 cm3· mol-1 -435 ± 40 -302 ± 40

T K 456.95 497.15 ___________

[7440-59-7] [7439-90-9]

MW 17.03

Ref.

______________________________________________

He Kr

88-kim/len 88-kim/len

MW = 4.00 MW = 83.80

328

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3 mol-1 = 2.2445 ⋅ 10 + 1.2894 ⋅ 103/(T/K) − 5.1960 ⋅ 105/(T/K)2 + 2.1073 ⋅ 107/(T/K)3 T/K 100 150

(B12 ± 2σest)/cm3· mol-1 4.5 ± 1 14.2 ± 1

T/K 200 250

(B12 ± 2σest)/cm3· mol-1 18.5 ± 1 20.6 ± 1

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 90.00 1.7 ± 0.6 0.2 73-kat/rob (…) 95.00 3.0 ± 1.1 0.0 73-kat/rob (…) 100.00 4.1 ± 1.0 -0.4 73-kat/rob (…) 105.00 5.7 ± 1.0 -0.1 73-kat/rob (…) 110.00 7.0 ± 1.3 -0.1 73-kat/rob (…) 115.00 8.5 ± 0.7 0.3 73-kat/rob (…) 148.20 15.3 ± 2.0 1.3 67-bre (×) 173.20 16.1 ± 2.0 -0.5 67-bre (×) _________

______________----________________________

_____________________________________

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 223.00 0.000 -93.0 ± 0.1 78-dil/wax 223.00 0.497 -10.7 ± 0.1 78-dil/wax 223.00 0.746 8.2 ± 0.1 78-dil/wax 223.00 1.000 12.0 ± 0.1 78-dil/wax 273.00 0.000 -61.5 ± 0.1 78-dil/wax 273.00 0.248 -26.2 ± 0.1 78-dil/wax 273.00 0.497 -2.0 ± 0.1 78-dil/wax ___________

_________________________________________

T K 198.20 223.00 223.20 273.00 273.20 323.00 323.20 _________

T K 273.00 273.00 323.00 323.00 323.00 323.00 323.00 ___________

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 21.8 ± 1 22.4 ± 1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 17.7 ± 2.0 -0.7 19.7 ± 0.3 0.0 18.3 ± 2.0 -1.4 21.2 ± 0.3 0.0 18.3 ± 2.0 -2.9 22.1 ± 0.3 0.0 21.0 ± 2.0 -1.1 -------------_________---_______________________

x1

_____________________________________

Bm ± δBm cm3· mol-1 10.7 ± 0.1 11.9 ± 0.1 -41.7 ± 0.1 -14.7 ± 0.1 3.4 ± 0.1 12.2 ± 0.1 11.7 ± 0.1

Ref. (Symbol in Fig. 1) 67-bre (×) 78-dil/wax (▲) 67-bre (×) 78-dil/wax (▲) 67-bre (×) 78-dil/wax (▲) 67-bre (×)

Ref.

__________________________________________

0.746 1.000 0.000 0.248 0.497 0.746 1.000

78-dil/wax 78-dil/wax 78-dil/wax 78-dil/wax 78-dil/wax 78-dil/wax 78-dil/wax

cont. Landolt-Börnstein New Series IV/21B

172

2 Mixtures Containing an Inorganic Compound

Helium + Krypton (cont.) 4 3

(B 12 - B 12calc)/cm3·mol-1

2 1 0 -1 -2 -3 -4 -5 75

100

125

150

175

200

225

250

275

300

325

350

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x2 Ref. T BE ± δBE 3 -1 K cm · mol 223.00 0.238 60.2 ± 0.2 78-dil/wax 273.00 0.487 46.0 ± 0.3 78-dil/wax ___________

________________________________________

T K 323.00 ___________

Table 5. Experimental Cm values with uncertainty. T x1 Cm ± δCm Ref. K 103· cm6· mol-2 223.00 0.000 3.1 ± 0 78-dil/wax 223.00 0.497 0.9 ± 0 78-dil/wax 223.00 0.746 0.4 ± 0 78-dil/wax 223.00 1.000 0.1 ± 0 78-dil/wax 273.00 0.000 2.5 ± 0 78-dil/wax 273.00 0.248 1.4 ± 0 78-dil/wax 273.00 0.497 0.8 ± 0 78-dil/wax

T K 273.00 273.00 323.00 323.00 323.00 323.00 323.00

Table 6. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 90.00 0.6 ± 0.1 73-kat/rob

T K 95.00

___________

___________

____________________________________-__________________

__________________________________________________________

x2 0.736

x1

___________

___________

BE ± δBE cm3· mol-1 37.1 ± 0.3

Ref.

________________________________________

Cm ± δCm 103· cm6· mol-2 0.4 ± 0 0.1 ± 0 2.1 ± 0 1.3 ± 0 0.7 ± 0 0.3 ± 0 0.1 ± 0

78-dil/wax

Ref.

__________________________________--___________________

0.746 1.000 0.000 0.248 0.497 0.746 1.000

C122 ± δC122 103· cm6· mol-2 0.6 ± 0.1

78-dil/wax 78-dil/wax 78-dil/wax 78-dil/wax 78-dil/wax 78-dil/wax 78-dil/wax

Ref.

_________________________________________________________

73-kat/rob cont.

Landolt-Börnstein New Series IV/21B

173

2 Mixtures Containing an Inorganic Compound

Helium + Krypton (cont.) Table 6. (cont.) T C122 ± δC122 K 103· cm6· mol-2 100.00 0.6 ± 0.1 105.00 0.5 ± 0.1 ___________

Ref.

T K 110.00 115.00 ___________

__________________________________________________________

73-kat/rob 73-kat/rob

Helium Nitric oxide

[7440-59-7] [10102-43-9]

C122 ± δC122 103· cm6· mol-2 0.4 ± 0.1 0.6 ± 0.1

Ref.

_________________________________________________________

He NO

73-kat/rob 73-kat/rob

MW = 4.00 MW = 30.01

329

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.5168 ⋅ 10 − 4.8809 ⋅ 102/(T/K) − 2.3549 ⋅ 105/(T/K)2 (B12 ± 2σest)/cm3· mol-1 6.2 ± 6 11.4 ± 5

T/K 125 150

T/K 200 250

(B12 ± 2σest)/cm3· mol-1 16.8 ± 5 19.4 ± 5

T/K 300

(B12 ± 2σest)/cm3· mol-1 20.9 ± 4

8

-1

2

(B 12 - B 12calc)/cm·m ol

4

3

6

0 -2 -4 -6 -8 1 00

1 20

1 40

1 60

1 80

2 00

2 20

2 40

2 60

2 80

3 00

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

174

2 Mixtures Containing an Inorganic Compound

Helium + Nitric oxide (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 124.00 6.0 ± 6.0 0.1 86-eli/hoa (▲) 133.00 8.1 ± 5.0 -0.1 86-eli/hoa (▲) 173.00 14.4 ± 5.0 -0.1 86-eli/hoa (▲) _________

______________________________________

_____________________________________

Helium Nitrogen

T K 213.00 296.20 _________

[7440-59-7] [7727-37-9]

Bexp - Bcalc Bexp ± δB 3 -1 cm · mol cm3· mol-1 17.8 ± 5.0 0.1 20.8 ± 4.0 0.0 ______________________________________

He N2

_____________________________________

Ref. (Symbol in Fig. 1) 86-eli/hoa (▲) 86-eli/hoa (▲)

MW = 4.00 MW = 28.01

330

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.8417 ⋅ 10 + 3.0450 ⋅ 103/(T/K) − 7.3264 ⋅ 105/(T/K)2 + 3.6364 ⋅ 107/(T/K)3 − 6.3776 ⋅ 108/(T/K)4 T/K 50 100

(B12 ± 2σest)/cm3· mol-1 -24.9 ± 5 5.6 ± 3

T/K 200 300

(B12 ± 2σest)/cm3· mol-1 19.5 ± 2 21.7 ± 1

T/K 500 750

(B12 ± 2σest)/cm3· mol-1 21.8 ± 1 21.3 ± 1

Table 2. Experimental B12 values with uncertainty. T K 40.00 45.00 50.00 60.00 77.30 87.20 90.00 103.15 113.15 133.15 143.14 148.15 158.15 173.15 183.15 198.15 223.13 223.15 248.15 270.00 270.00 270.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -39.0 ± 3.5 5.3 -32.5 ± 1.3 -0.3 -26.9 ± 2.1 -2.0 -12.8 ± 1.5 2.4 -10.4 ± 6.0 -6.5 -4.1 ± 6.0 -4.9 12.4 ± 3.0 10.4 6.3 ± 1.0 -0.3 10.4 ± 1.0 1.1 13.8 ± 5.1 0.5 15.3 ± 5.2 0.5 15.3 ± 3.0 -0.1 16.5 ± 5.2 -0.1 17.3 ± 3.0 -0.6 17.9 ± 5.2 -0.7 17.8 ± 3.0 -1.6 20.2 ± 5.2 -0.2 18.7 ± 3.0 -1.7 19.9 ± 3.0 -1.1 21.1 ± 0.5 -0.3 21.5 ± 0.5 0.1 21.4 ± 0.5 0.0 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 83-dor/kus („) 83-dor/kus („) 83-dor/kus („) 83-dor/kus („) 83-sch/buc (Ο) 83-sch/buc (Ο) 59-kno/bee (z) 70-hal/can (− −) 70-hal/can (− −) 63-can/lel (∆) 63-can/lel (∆) 69-bre/vau (9) 63-can/lel (∆) 69-bre/vau (9) 63-can/lel (∆) 69-bre/vau (9) 63-can/lel (∆) 69-bre/vau (9) 69-bre/vau (9) 92-zha/sch (■) 92-zha/sch (■) 92-zha/sch (■)

T K 273.15 273.15 290.00 290.00 290.00 290.00 292.90 298.15 298.15 298.15 298.20 300.00 303.15 303.20 303.20 310.00 310.00 310.00 311.70 315.00 320.00 321.70 _________

Bexp ± δB cm3· mol-1 21.7 ± 5.2 20.2 ± 3.0 22.3 ± 0.7 20.8 ± 0.5 21.3 ± 0.5 21.8 ± 0.5 21.8 ± 1.0 21.2 ± 3.0 22.1 ± 0.5 20.9 ± 0.5 12.5 ± 3.0 22.1 ± 0.6 21.8 ± 0.3 21.0 ± 0.0 21.8 ± 1.0 22.0 ± 0.5 20.7 ± 0.5 22.2 ± 0.5 22.0 ± 1.1 21.7 ± 1.0 21.5 ± 0.6 21.7 ± 1.0 ______________________________________

Bexp - Bcalc cm3· mol-1 0.3 -1.2 0.7 -0.8 -0.3 0.2 0.2 -0.5 0.4 -0.8 -9.2 0.4 0.1 -0.7 0.1 0.2 -1.1 0.4 0.2 -0.1 -0.3 -0.1 _____________________________________

Ref. (Symbol in Fig. 1) 63-can/lel (∆) 69-bre/vau (9) 82-mar/tre („) 92-zha/sch (■) 92-zha/sch (■) 92-zha/sch (■) 81-bel/dun (♦) 69-bre/vau (9) 92-zha/sch (■) 92-zha/sch (■) 42-edw/ros (×) 82-mar/tre („) 57-kra/mil (◊) 55-pfe/gof (…) 81-bel/dun (♦) 92-zha/sch (■) 92-zha/sch (■) 92-zha/sch (■) 67-ku/dod (+) 81-bel/dun (♦) 82-mar/tre („) 81-bel/dun (♦) cont.

Landolt-Börnstein New Series IV/21B

175

2 Mixtures Containing an Inorganic Compound

Helium + Nitrogen (cont.) Table 2. (cont.) Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 21.6 ± 3.0 -0.2 21.9 ± 0.5 0.0 21.3 ± 0.5 -0.6 22.3 ± 0.5 0.4 22.3 ± 0.5 0.4 22.4 ± 0.5 0.5

T K 323.15 330.00 330.00 330.00 350.00 350.00 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 2) 69-bre/vau (9) 92-zha/sch (■) 92-zha/sch (■) 92-zha/sch (■) 92-zha/sch (■) 92-zha/sch (■)

T K 373.20 448.15 523.15 598.15 673.15 748.15 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 22.2 ± 1.1 0.2 22.9 ± 0.4 0.9 22.4 ± 0.2 0.6 21.7 ± 0.4 0.1 21.2 ± 0.3 -0.2 20.3 ± 0.3 -1.0 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 2) 67-ku/dod (+) 63-wit/mil (▲) 63-wit/mil (▲) 63-wit/mil (▲) 63-wit/mil (▲) 63-wit/mil (▲)

15

5

3

(B 12 - B 12calc)/cm ·mol

-1

10

0

-5

-10

-15 0

100

200

300

400

500

600

700

800

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 83.15 0.878 5.8 ± 0.4 70-hal/can 83.15 0.753 -6.8 ± 0.1 70-hal/can 103.15 0.878 8.4 ± 0.1 70-hal/can 103.15 0.753 0.1 ± 0.1 70-hal/can 103.15 0.446 -40.6 ± 0.8 70-hal/can 103.15 0.301 -69.8 ± 0.9 70-hal/can 113.15 0.878 9.1 ± 0.1 70-hal/can 113.15 0.753 3.0 ± 0.1 70-hal/can ___________

Landolt-Börnstein New Series IV/21B

______________________________________

T K 113.15 113.15 270.00 270.00 270.00 290.00 290.00 290.00 ___________

x1

Bm ± δBm cm3· mol-1 -31.9 ± 0.1 -57.0 ± 0.2 2.6 ± 0.4 10.9 ± 0.4 13.9 ± 0.4 5.2 ± 0.4 11.7 ± 0.4 14.2 ± 0.4

Ref.

_________________________________________

0.446 0.301 0.249 0.500 0.749 0.249 0.500 0.749

70-hal/can 70-hal/can 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch cont.

176

2 Mixtures Containing an Inorganic Compound

Helium + Nitrogen (cont.) Table 3. (cont.) T x1 K 298.15 0.249 298.15 0.749 310.00 0.249 310.00 0.500 310.00 0.749 ___________

Bm ± δBm cm3· mol-1 5.8 ± 0.4 14.6 ± 0.4 7.6 ± 0.4 12.7 ± 0.4 14.7 ± 0.4

Ref.

T K 330.00 330.00 330.00 350.00 350.00 ___________

______________________________________

92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 18.4 ± 0.2 82-mar/tre 290.00 0.500 19.2 ± 0.2 82-mar/tre 292.90 0.500 18.9 ± 0.3 81-bel/dun 303.20 0.500 18.0 ± 0.3 81-bel/dun

T K 315.00 320.00 321.70

Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. K 103· cm6· mol-2 83.15 0.878 0.2 ± 0.1 70-hal/can 103.15 0.878 0.3 ± 0.1 70-hal/can 103.15 0.753 0.5 ± 0.1 70-hal/can 103.15 0.446 1.3 ± 0.2 70-hal/can 103.15 0.301 1.6 ± 0.3 70-hal/can 113.15 0.878 0.3 ± 0.1 70-hal/can 113.15 0.753 0.4 ± 0.1 70-hal/can 113.15 0.446 1.2 ± 0.1 70-hal/can 113.15 0.301 1.8 ± 0.1 70-hal/can 270.00 0.249 0.9 ± 0.1 92-zha/sch 270.00 0.500 0.5 ± 0.1 92-zha/sch 270.00 0.749 0.3 ± 0.1 92-zha/sch 290.00 0.249 0.9 ± 0.1 92-zha/sch

T K 290.00 290.00 298.15 298.15 310.00 310.00 310.00 330.00 330.00 330.00 350.00 350.00

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 40.00 1.1 ± 0.2 83-dor/kus 45.00 0.9 ± 0.1 83-dor/kus 50.00 0.9 ± 0.2 83-dor/kus 60.00 0.7 ± 0.1 83-dor/kus 133.15 0.3 ± 0.0 63-can/lel 143.14 0.4 ± 0.0 63-can/lel

T K 158.15 183.15 223.13 273.15 303.15

___________

___________

___________

________________________________________

___________________________________________________________

__________________________________________________________

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 133.15 1.0 ± 0.4 63-can/lel ___________

__________________________________________________________

___________

___________

___________

T K 143.14 ___________

x1

Bm ± δBm cm3· mol-1 9.5 ± 0.4 13.8 ± 0.4 14.8 ± 0.4 11.1 ± 0.4 15.1 ± 0.4

Ref.

_________________________________________

0.249 0.500 0.749 0.249 0.749

x1

BE ± δBE cm3· mol-1 17.0 ± 0.3 16.7 ± 0.2 16.6 ± 0.3

92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch

Ref.

_______________________________________

0.500 0.500 0.500

x1

Cm ± δCm 103· cm6· mol-2 0.6 ± 0.1 0.3 ± 0.1 1.0 ± 0.1 0.3 ± 0.1 0.8 ± 0.1 0.6 ± 0.1 0.3 ± 0.1 0.8 ± 0.1 0.6 ± 0.1 0.3 ± 0.1 0.8 ± 0.1 0.3 ± 0.1

81-bel/dun 82-mar/tre 81-bel/dun

Ref.

___________________________________________________________

0.500 0.749 0.249 0.749 0.249 0.500 0.749 0.249 0.500 0.749 0.249 0.749

C112 ± δC112 103· cm6· mol-2 0.5 ± 0.0 0.4 ± 0.0 0.3 ± 0.0 0.1 ± 0.0 0.1 ± 0.0

92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch 92-zha/sch

Ref.

__________________________________________________________

C122 ± δC122 103· cm6· mol-2 0.8 ± 0.4

63-can/lel 63-can/lel 63-can/lel 63-can/lel 57-kra/mil

Ref.

__________________________________________________________

63-can/lel cont.

Landolt-Börnstein New Series IV/21B

177

2 Mixtures Containing an Inorganic Compound

Helium + Nitrogen (cont.) Table 7. (cont.) T C122 ± δC122 K 103· cm6· mol-2 158.15 0.6 ± 0.4 183.15 0.8 ± 0.4 223.13 0.8 ± 0.4 ___________

Ref.

C122 ± δC122 103· cm6· mol-2 0.7 ± 0.4 0.3 ± 0.0

T K 273.15 303.15 ___________

__________________________________________________________

63-can/lel 63-can/lel 63-can/lel

Helium Nitrous oxide

[7440-59-7] [10024-97-2]

Ref.

__________________________________________________________

He N2O

63-can/lel 57-kra/mil

MW = 4.00 MW = 44.01

331

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 4.4476 ⋅ 10 − 9.8008 ⋅ 103/(T/K) + 7.9041 ⋅ 105/(T/K)2 (B12 ± 2σest)/cm3· mol-1 19.3 ± 0.6 20.6 ± 0.6

T/K 275 300

T/K 325 350

(B12 ± 2σest)/cm3· mol-1 21.8 ± 0.6 22.9 ± 0.6

T/K

(B12 ± 2σest)/cm3· mol-1

1.0 0.8

(B 12 - B 12calc)/cm3·mol -1

0.6 0.4 0.2 0.0 -0.2 -0.4 -0.6 -0.8 -1.0 290

295

300

305

310

315

320

325

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) cont.

Landolt-Börnstein New Series IV/21B

178

2 Mixtures Containing an Inorganic Compound

Helium + Nitrous oxide (cont.) Table 2. Experimental B12 values with uncertainty. T T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) K 292.90 20.3 ± 0.6 0.1 81-bel/dun (▲) 313.50 303.20 20.5 ± 0.6 -0.2 81-bel/dun (▲) 320.00

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 21.6 ± 0.6 0.3 21.4 ± 0.6 -0.2

Helium Neon

He Ne

_________

______________________________________

_____________________________________

_________

[7440-59-7] [7440-01-9]

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 81-bel/dun (▲) 81-bel/dun (▲)

MW = 4.00 MW = 20.18

332

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.3558 ⋅ 10 − 2.5654 ⋅ 102/(T/K) − 2.8502 · 104/(T/K)2 + 2.2060 · 105/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -64.9 ± 4 -1.2 ± 3 8.4 ± 3

T/K 15 50 100

T/K 150 200 250

(B12 ± 2σest)/cm3· mol-1 10.6 ± 3 11.6 ± 3 12.1 ± 3

T/K 300 350

150

250

(B12 ± 2σest)/cm3· mol-1 12.4 ± 3 12.6 ± 3

8

4

3

(B 12 - B 12calc)/cm ·mol

-1

6

2 0 -2 -4 -6 0

50

100

200

300

350

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

179

2 Mixtures Containing an Inorganic Compound

Helium + Neon (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 15.00 -65.0 ± 3.0 -0.1 77-iom/dor (♦) 15.60 -61.0 ± 5.0 0.9 79-ber/cha (z) 16.00 -59.0 ± 3.0 1.0 77-iom/dor (♦) 17.00 -57.5 ± 2.5 -2.2 77-iom/dor (♦) 17.60 -52.0 ± 5.0 0.6 79-ber/cha (z) 18.00 -50.0 ± 3.0 0.8 77-iom/dor (♦) 19.00 -46.0 ± 3.0 0.7 77-iom/dor (♦) 19.80 -41.0 ± 5.0 2.7 79-ber/cha (z) 20.00 -43.0 ± 2.0 -0.1 77-iom/dor (♦)

T K 90.00 148.15 173.15 198.15 223.15 248.15 273.15 298.15 323.15

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 15.00 0.6 ± 0.1 77-iom/dor 16.00 0.6 ± 0.1 77-iom/dor 17.00 0.6 ± 0.1 77-iom/dor

T K 18.00 19.00 20.00

_________

______________________________________

___________

_____________________________________

__________________________________________________________

Helium Oxygen

_________

___________

[7440-59-7] [7782-44-7]

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 7.4 ± 3.0 -0.1 10.3 ± 3.0 -0.3 10.9 ± 3.0 -0.3 11.4 ± 3.0 -0.2 11.7 ± 3.0 -0.2 12.0 ± 3.0 -0.1 12.1 ± 3.0 -0.1 12.4 ± 3.0 0.0 12.7 ± 3.0 0.2 ______________________________________

_____________________________________

C112 ± δC112 103· cm6· mol-2 0.6 ± 0.1 0.6 ± 0.1 0.5 ± 0.1

Ref. (Symbol in Fig. 1) 59-kno/bee (×) 69-bre/vau (…) 69-bre/vau (…) 69-bre/vau (…) 69-bre/vau (…) 69-bre/vau (…) 69-bre/vau (…) 69-bre/vau (…) 69-bre/vau (…)

Ref.

__________________________________________________________

He O2

77-iom/dor 77-iom/dor 77-iom/dor

MW = 4.00 MW = 32.00

333

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.6501 ⋅ 10 − 2.5239 ⋅ 103/(T/K) − 1.9725 ⋅ 104/(T/K)2 − 2.9539 ⋅ 104/(T/K)3 T/K 50 100

(B12 ± 2σest)/cm3· mol-1 -32.1 ± 5 -0.7 ± 5

T/K 150 200

(B12 ± 2σest)/cm3· mol-1 8.8 ± 5 13.4 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 38.00 -54.6 ± 0.8 -0.5 82-dor/kus (…) 40.00 -49.5 ± 0.8 -0.1 82-dor/kus (…) 42.00 -44.3 ± 0.8 0.9 82-dor/kus (…) 45.00 -41.5 ± 3.0 -1.8 82-dor/kus (…) 50.00 -31.3 ± 1.0 0.8 82-dor/kus (…) 54.00 -29.5 ± 1.2 -2.3 82-dor/kus (…) 77.30 -13.4 ± 8.0 -3.9 86-eli/hoa (▲) 87.20 -7.0 ± 7.0 -1.9 86-eli/hoa (▲) 90.00 -4.4 ± 3.0 -0.4 59-kno/bee (×) 90.10 -4.4 ± 7.0 -0.4 86-eli/hoa (▲) _________

______________________________________

_____________________________________

T K 173.00 198.00 233.00 263.00 273.20 290.00 296.20 300.00 320.00 _________

T/K 250 300

(B12 ± 2σest)/cm3· mol-1 16.1 ± 5 17.9 ± 2

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 12.5 ± 5.0 1.3 14.7 ± 5.0 1.5 17.9 ± 5.0 2.6 19.6 ± 5.0 3.0 15.9 ± 1.0 -1.1 17.8 ± 0.6 0.2 19.4 ± 4.0 1.6 18.2 ± 0.6 0.3 17.6 ± 0.6 -0.8 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 86-eli/hoa (▲) 86-eli/hoa (▲) 86-eli/hoa (▲) 86-eli/hoa (▲) 67-bre (♦) 82-mar/tre (∆) 86-eli/hoa (▲) 82-mar/tre (∆) 82-mar/tre (∆)

cont. Landolt-Börnstein New Series IV/21B

180

2 Mixtures Containing an Inorganic Compound

Helium + Oxygen (cont.) 10

(B 12 - B 12calc)/cm3·mol-1

5

0

-5

-10

-15 0

50

100

150

200

250

300

350

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 273.20 0.500 21.0 ± 0.2 67-bre 290.00 0.500 20.6 ± 0.2 82-mar/tre ___________

________________________________________

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 K 103· cm6· mol-2 38.00 0.9 ± 0.1 82-dor/kus 40.00 0.9 ± 0.1 82-dor/kus 42.00 0.8 ± 0.1 82-dor/kus ___________

__________________________________________________________

T x1 K 300.00 0.500 320.00 0.500 ___________

T K 45.00 50.00 54.00 ___________

BE ± δBE cm3· mol-1 20.1 ± 0.2 18.0 ± 0.2

Ref.

_______________________________________

C112 ± δC112 103· cm6· mol-2 0.9 ± 0.2 0.7 ± 0.1 0.8 ± 0.1

82-mar/tre 82-mar/tre

Ref.

__________________________________________________________

82-dor/kus 82-dor/kus 82-dor/kus

Landolt-Börnstein New Series IV/21B

181

2 Mixtures Containing an Inorganic Compound

Helium Xenon

[7440-59-7] [7440-63-3]

He Xe

MW = 4.00 MW = 131.29

334

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.2759 ⋅ 10 + 3.5574 ⋅ 103/(T/K) − 5.8539 ⋅ 105/(T/K)2 − 4.5983 ⋅ 106/(T/K)3 (B12 ± 2σest)/cm3· mol-1 9.1 ± 1 19.1 ± 1

T/K 120 150

T/K 200 250

(B12 ± 2σest)/cm3· mol-1 25.3 ± 2 27.3 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 120.00 9.4 ± 1.0 0.3 73-kat/rob (×) 130.00 13.1 ± 0.8 -0.3 73-kat/rob (×) 140.00 16.4 ± 0.8 -0.2 73-kat/rob (×) 155.00 20.5 ± 0.8 0.4 73-kat/rob (×) 173.20 23.2 ± 3.0 0.3 67-bre (…) _________

______________________________________

_____________________________________

T K 198.20 223.20 273.20 323.20 _________

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 27.9 ± 2 28.0 ± 2

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 25.9 ± 2.0 0.7 25.4 ± 2.0 -1.1 26.9 ± 2.0 -0.8 28.8 ± 2.0 0.8 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (…) 67-bre (…) 67-bre (…) 67-bre (…)

4

(B 12 - B 12calc)/cm3·mol-1

3 2 1 0 -1 -2 -3 -4 100

150

200

250

300

350

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

182

2 Mixtures Containing an Inorganic Compound

Helium + Xenon (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 173.20 0.500 201.5 ± 0.2 67-bre 198.20 0.500 161.9 ± 0.2 67-bre 223.20 0.500 132.8 ± 0.2 67-bre ___________

________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 120.00 0.5 ± 0.1 73-kat/rob-1 130.00 0.6 ± 0.1 73-kat/rob-1 ___________

__________________________________________________________

Helium Tetrachloromethane

T K 140.00 155.00 ___________

[7440-59-7] [56-23-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 262.50 37.0 ± 5.0 72-gup/kin 273.20 46.0 ± 4.0 72-gup/kin 298.20 61.0 ± 4.0 72-gup/kin ___________

T x1 K 273.20 0.500 323.20 0.500 ___________

______________________________________________

Helium Tetrafluoromethane

T K 323.20 348.20 ___________

[7440-59-7] [75-73-0]

BE ± δBE cm3· mol-1 98.1 ± 0.2 78.5 ± 0.2

Ref.

________________________________________

C112 ± δC112 103· cm6· mol-2 0.7 ± 0.1 0.3 ± 0.1

67-bre 67-bre

Ref.

__________________________________________________________

He CCl4

73-kat/rob-1 73-kat/rob-1

MW = 4.00 MW = 153.82

B12 ± δB12 cm3· mol-1 56.0 ± 2.0 59.0 ± 2.0

335

Ref.

______________________________________________

He CF4

72-gup/kin 72-gup/kin

MW = 4.00 MW = 88.00

336

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 7.6369 ⋅ 10 − 3.6626 ⋅ 104/(T/K) + 9.6817 ⋅ 106/(T/K)2 − 9.1723 ⋅ 108/(T/K)3 T/K 175 200

(B12 ± 2σest)/cm3· mol-1 12.1 ± 6 20.7 ± 5

T/K 300 400

(B12 ± 2σest)/cm3· mol-1 27.9 ± 1 31.0 ± 1

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 173.00 14.9 ± 6.0 3.9 86-eli/hoa (▲) 183.00 16.3 ± 6.0 0.6 86-eli/hoa (▲) 203.00 19.2 ± 5.0 -2.0 86-eli/hoa (▲) 223.00 21.4 ± 5.0 -2.7 86-eli/hoa (▲) 253.00 23.8 ± 5.0 -2.4 86-eli/hoa (▲) 290.00 28.1 ± 1.3 0.5 86-dun/big („) 290.00 28.5 ± 1.4 0.9 93-big/dun (Ο) _________

______________________________________

_____________________________________

T K 296.20 300.00 300.00 303.15 303.20 310.00 320.00 _________

T/K 550 750

(B12 ± 2σest)/cm3· mol-1 36.3 ± 1 42.6 ± 1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 25.1 ± 4.0 -2.7 28.4 ± 1.4 0.5 29.7 ± 1.4 1.8 26.5 ± 0.8 -1.5 28.2 ± 1.3 0.2 29.6 ± 1.4 1.4 29.7 ± 1.4 1.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 86-eli/hoa (▲) 86-dun/big („) 93-big/dun (Ο) 67-kal/mil (×) 81-bel/dun (…) 93-big/dun (Ο) 86-dun/big („) cont.

Landolt-Börnstein New Series IV/21B

183

2 Mixtures Containing an Inorganic Compound

Helium + Tetrafluoromethane (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 373.15 30.2 ± 0.9 0.1 473.15 33.2 ± 0.5 -0.3 573.15 37.4 ± 0.8 0.3 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-kal/mil (×) 67-kal/mil (×) 67-kal/mil (×)

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 673.15 40.5 ± 0.4 0.2 773.15 43.1 ± 0.4 -0.1 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-kal/mil (×) 67-kal/mil (×)

10 8

(B 12 - B 12calc)/cm3·mol-1

6 4 2 0 -2 -4 -6 -8 100

200

300

400

500

600

700

800

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 70.1 ± 0.4 86-dun/big 290.00 0.500 71.6 ± 1.0 93-big/dun 300.00 0.500 66.0 ± 0.4 86-dun/big 300.00 0.500 68.6 ± 1.0 93-big/dun ___________

Landolt-Börnstein New Series IV/21B

________________________________________

T x1 K 303.20 0.500 310.00 0.500 320.00 0.500 ___________

BE ± δBE cm3· mol-1 64.6 ± 0.3 65.1 ± 1.0 60.3 ± 0.4

Ref.

________________________________________

81-bel/dun 93-big/dun 86-dun/big

184

2 Mixtures Containing an Inorganic Compound

Helium Chlorodifluoromethane

[7440-59-7] [75-45-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 248.20 85.2 ± 6.0 67-bre 273.20 42.7 ± 5.0 67-bre ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 248.20 0.500 351.7 ± 0.2 67-bre 273.20 0.500 255.3 ± 0.2 67-bre ___________

________________________________________

Helium Trifluoromethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 123.8 ± 1.0 93-big/dun 300.00 0.500 116.8 ± 1.0 93-big/dun ___________

________________________________________

Helium Difluoromethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 181.9 ± 24.0 93-big/dun 300.00 0.500 170.4 ± 24.0 93-big/dun ___________

T K 310.00 ___________

[7440-59-7] [75-10-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 290.00 30.0 ± 6.0 93-big/dun 300.00 29.9 ± 6.0 93-big/dun ___________

T K 310.00

________________________________________

T K 310.00 ___________

T K 310.00 ___________

337

Ref.

______________________________________________

T x1 K 298.20 0.500

___________

MW = 4.00 MW = 86.47

B12 ± δB12 cm3· mol-1 34.0 ± 4.0

___________

[7440-59-7] [75-46-7]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 290.00 27.2 ± 4.0 93-big/dun 300.00 28.5 ± 4.0 93-big/dun ___________

T K 298.20 ___________

He CHClF2

He CHF3

67-bre

BE ± δBE cm3· mol-1 207.6 ± 0.2

Ref.

________________________________________

67-bre

MW = 4.00 MW = 70.01

B12 ± δB12 cm3· mol-1 28.9 ± 4.0

338

Ref.

______________________________________________

x1

93-big/dun

BE ± δBE cm3· mol-1 109.2 ± 1.0

Ref.

________________________________________

0.500

He CH2F2

93-big/dun

MW = 4.00 MW = 52.02

B12 ± δB12 cm3· mol-1 32.0 ± 5.0

339

Ref.

______________________________________________

x1

93-big/dun

BE ± δBE cm3· mol-1 158.5 ± 24.0

Ref.

________________________________________

0.500

93-big/dun

Landolt-Börnstein New Series IV/21B

185

2 Mixtures Containing an Inorganic Compound

Helium Fluoromethane

[7440-59-7] [593-53-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 25.2 ± 4.0 93-big/dun 300.00 25.8 ± 4.0 93-big/dun ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 129.5 ± 1.0 93-big/dun 300.00 0.500 120.9 ± 1.0 93-big/dun ___________

________________________________________

Helium Methane

T K 310.00 ___________

T K 310.00 ___________

[7440-59-7] [74-82-8]

He CH3F

MW = 4.00 MW = 34.03

B12 ± δB12 cm3· mol-1 27.3 ± 4.0

340

Ref.

______________________________________________

x1

93-big/dun

BE ± δBE cm3· mol-1 111.8 ± 1.0

Ref.

________________________________________

0.500

He CH4

93-big/dun

MW = 4.00 MW = 16.04

341

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.9872 ⋅ 10 − 9.6196 ⋅ 102/(T/K) − 2.3581 ⋅ 105/(T/K)2 + 1.7281 ⋅ 107/(T/K)3 T/K 100 150

(B12 ± 2σest)/cm3· mol-1 14.0 ± 5 18.1 ± 3

T/K 200 250

(B12 ± 2σest)/cm3· mol-1 21.3 ± 2 23.4 ± 1

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 90.10 3.9 ± 10.0 -9.9 86-eli/hoa (∆) 95.00 26.0 ± 10.0 12.2 80-mal-1(…) 123.20 15.7 ± 1.0 -0.1 67-bre (×) 124.00 11.3 ± 6.0 -4.5 86-eli/hoa (∆) 143.00 15.4 ± 5.0 -2.1 86-eli/hoa (∆) 148.20 18.1 ± 1.0 0.1 67-bre (×) 173.00 18.6 ± 5.0 -1.2 86-eli/hoa (∆) 173.20 19.8 ± 1.0 0.0 67-bre (×) 213.00 21.8 ± 5.0 -0.1 86-eli/hoa (∆) 223.20 22.0 ± 1.0 -0.4 67-bre (×) _________

______________________________________

_____________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 123.20 0.500 142.2 ± 0.2 67-bre 148.20 0.500 105.1 ± 0.2 67-bre 173.20 0.500 83.2 ± 0.2 67-bre 223.20 0.500 57.9 ± 0.2 67-bre ___________

Landolt-Börnstein New Series IV/21B

________________________________________

T K 263.00 273.20 290.00 292.90 296.20 300.00 303.20 320.00 320.00 _________

T K 273.20 290.00 290.00 292.90 ___________

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 24.7 ± 1 25.6 ± 1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 24.5 ± 5.0 0.7 23.3 ± 1.0 -0.7 24.6 ± 0.7 0.1 24.6 ± 0.3 0.1 24.9 ± 4.0 0.3 24.7 ± 0.7 0.0 24.9 ± 0.3 0.1 25.0 ± 0.3 -0.1 24.7 ± 0.7 -0.4 ______________________________________

x1

_____________________________________

BE ± δBE cm3· mol-1 44.4 ± 0.2 41.9 ± 0.2 42.5 ± 6.0 41.2 ± 0.3

Ref. (Symbol in Fig. 1) 86-eli/hoa (∆) 67-bre (×) 82-mar/tre (z) 81-bel/dun (▲) 86-eli/hoa (∆) 82-mar/tre (z) 81-bel/dun (▲) 81-bel/dun (▲) 82-mar/tre (z)

Ref.

________________________________________

0.500 0.500 0.000 0.000

67-bre 82-mar/tre 93-big/dun 81-bel/dun cont.

186

2 Mixtures Containing an Inorganic Compound

Helium + Methane (cont.) Table 4. (cont.) T x1 K 300.00 0.500 300.00 0.500 303.20 0.500 ___________

BE ± δBE cm3· mol-1 39.8 ± 0.2 30.3 ± 6.0 39.2 ± 0.3

Ref.

T x1 K 310.00 0.500 320.00 0.500 320.00 0.500 ___________

________________________________________

82-mar/tre 93-big/dun 81-bel/dun

BE ± δBE cm3· mol-1 35.9 ± 6.0 36.4 ± 0.3 36.5 ± 0.2

Ref.

_______________________________________

93-big/dun 81-bel/dun 82-mar/tre

25 20

10

3

(B 12 - B 12calc)/cm ·mol

-1

15

5 0 -5 -10 -15 -20 75

100

125

150

175

200

225

250

275

300

325

350

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

187

2 Mixtures Containing an Inorganic Compound

Helium Hexafluoroethane

[7440-59-7] [76-16-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 41.1 ± 4.0 92-bel/big 300.00 43.9 ± 4.0 92-bel/big ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 174.5 ± 1.0 92-bel/big 300.00 0.500 167.5 ± 1.0 92-bel/big ___________

________________________________________

Helium Pentafluoroethane

T K 310.00 ___________

[7440-59-7] [354-33-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 290.00 41.0 ± 4.0 93-big/dun-1 300.00 43.4 ± 4.0 93-big/dun-1 ___________

T K 310.00 ___________

______________________________________________

T K 310.00 ___________

He C2F6

B12 ± δB12 cm3· mol-1 44.3 ± 4.0

x1

Helium 1,1,1,2-Tetrafluoroethane

[7440-59-7] [811-97-2]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 39.8 ± 6.0 93-big/dun-1 300.00 44.1 ± 6.0 93-big/dun-1 ___________

______________________________________________

T K 310.00 ___________

0.500

He C2HF5

Landolt-Börnstein New Series IV/21B

_______________________________________

___________

92-bel/big

BE ± δBE cm3· mol-1 157.1 ± 1.0

Ref. 92-bel/big

MW = 4.00 MW = 120.02

B12 ± δB12 cm3· mol-1 41.0 ± 4.0

343

Ref.

______________________________________________

He C2H2F4

93-big/dun-1

BE ± δBE cm3· mol-1 202.8 ± 1.0

Ref.

_______________________________________

93-big/dun-1

MW = 4.00 MW = 102.03

B12 ± δB12 cm3· mol-1 39.2 ± 6.0

344

Ref.

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T x1 T BE ± δBE 3 -1 K cm · mol K 290.00 0.500 302.2 ± 1.0 93-big/dun-1 310.00 0.500 300.00 0.500 281.0 ± 1.0 93-big/dun-1 ___________

Ref.

________________________________________

___________

________________________________________

342

______________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. T x1 BE ± δBE 3 -1 K cm · mol K 290.00 0.500 232.7 ± 1.0 93-big/dun-1 310.00 0.500 300.00 0.500 219.1 ± 1.0 93-big/dun-1 ___________

MW = 4.00 MW = 138.01

93-big/dun-1

BE ± δBE cm3· mol-1 254.9 ± 1.0

Ref.

________________________________________

93-big/dun-1

188

2 Mixtures Containing an Inorganic Compound

Helium 1,1,2,2-Tetrafluoroethane

[7440-59-7] [359-35-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 43.9 ± 6.0 93-big/dun-1 300.00 46.0 ± 6.0 93-big/dun-1 ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 293.7 ± 1.0 93-big/dun-1 300.00 0.500 274.4 ± 1.0 93-big/dun-1 ___________

________________________________________

Helium 1,1,1-Trifluoroethane

______________________________________________

Table 4. Experimental BE values with uncertainty. T x1 BE ± δBE Ref. K cm3· mol-1 290.00 0.500 249.5 ± 1.0 93-big/dun-1 300.00 0.500 235.4 ± 1.0 93-big/dun-1 ___________

________________________________________

Helium 1,1,2-Trifluoroethane

___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 363.3 ± 1.0 93-big/dun-1 300.00 0.500 344.9 ± 1.0 93-big/dun-1 ___________

_______________________________________

T K 310.00

T K 310.00

He C2H3F3

93-big/dun-1

Ref. 93-big/dun-1

MW = 4.00 MW = 84.04

B12 ± δB12 cm3· mol-1 43.1 ± 6.0

346

Ref.

______________________________________________

93-big/dun-1

BE ± δBE cm3· mol-1 220.4 ± 1.0

Ref.

________________________________________

He C2H3F3

93-big/dun-1

MW = 4.00 MW = 84.04

B12 ± δB12 cm3· mol-1 49.0 ± 6.0

T x1 K 310.00 0.500 ___________

Ref.

BE ± δBE cm3· mol-1 253.4 ± 1.0

T x1 K 310.00 0.500

___________

345

_______________________________________

___________

[7440-59-7] [430-66-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 47.0 ± 6.0 93-big/dun-1 300.00 50.8 ± 6.0 93-big/dun-1

B12 ± δB12 cm3· mol-1 45.3 ± 6.0

T x1 K 310.00 0.500

___________

MW = 4.00 MW = 102.03

______________________________________________

___________

[7440-59-7] [420-46-2]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 290.00 36.5 ± 6.0 93-big/dun-1 300.00 40.8 ± 6.0 93-big/dun-1 ___________

T K 310.00 ___________

He C2H2F4

347

Ref.

______________________________________________

93-big/dun-1

BE ± δBE cm3· mol-1 312.0 ± 1.0

Ref.

________________________________________

93-big/dun-1

Landolt-Börnstein New Series IV/21B

189

2 Mixtures Containing an Inorganic Compound

Helium Ethene

[7440-59-7] [74-85-1]

He C2H4

MW = 4.00 MW = 28.05

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 30.2 ± 3.0 77-lin/rod

T K 373.20

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 3 6 -2 K 10 · cm · mol 323.20 2.1 ± 0.2 77-lin/rod

T K 373.20

C112 ± δC112 103· m6· mol-2 1.9 ± 0.2

Ref.

Table 7. Experimental C122 values with uncertainty. T Ref. C122 ± δC122 K 103· cm6· mol-2 323.20 0.4 ± 0.0 77-lin/rod

T K 373.20

C122 ± δC122 103· cm6· mol-2 0.5 ± 0.1

Ref.

___________

___________

___________

______________________________________________

__________________________________________________________

__________________________________________________________

Helium 1,1-Difluoroethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 308.1 ± 1.0 92-bel/big 290.00 0.500 311.5 ± 1.0 93-big/dun-1 300.00 0.500 285.3 ± 1.0 92-bel/big ___________

________________________________________

Helium Fluoroethane

___________

______________________________________________

T K 300.00 310.00 310.00 ___________

T K 300.00 310.00 310.00 ___________

[7440-59-7] [353-36-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 44.1 ± 4.0 93-big/dun-1 300.00 42.0 ± 4.0 93-big/dun-1 ___________

___________

[7440-59-7] [75-37-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 34.2 ± 3.0 92-bel/big 290.00 45.6 ± 2.0 93-big/dun-1 300.00 38.3 ± 3.0 92-bel/big ___________

___________

T K 310.00 ___________

B12 ± δB12 cm3· mol-1 28.7 ± 3.0

348

Ref.

______________________________________________

77-lin/rod

__________________________________________________________

77-lin/rod

__________________________________________________________

He C2H4F2

77-lin/rod

MW = 4.00 MW = 66.05

B12 ± δB12 cm3· mol-1 46.0 ± 2.0 38.9 ± 3.0 45.0 ± 2.0

349

Ref.

______________________________________________

x1

93-big/dun-1 92-bel/big 93-big/dun-1

BE ± δBE cm3· mol-1 286.5 ± 1.0 262.2 ± 1.0 264.6 ± 1.0

Ref.

________________________________________

0.500 0.500 0.500

He C2H5F

93-big/dun-1 92-bel/big 93-big/dun-1

MW = 4.00 MW = 48.06

B12 ± δB12 cm3· mol-1 39.2 ± 4.0

350

Ref.

______________________________________________

93-big/dun-1

cont. Landolt-Börnstein New Series IV/21B

190

2 Mixtures Containing an Inorganic Compound

Helium + Fluoroethane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 238.8 ± 1.0 93-big/dun-1 300.00 0.500 221.5 ± 1.0 93-big/dun-1 ___________

________________________________________

Helium Ethane

[7440-59-7] [74-84-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 31.5 ± 6.0 92-bel/big 300.00 32.0 ± 6.0 92-bel/big ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 123.4 ± 1.0 92-bel/big 300.00 0.500 117.5 ± 1.0 92-bel/big ___________

_______________________________________

Helium Ethanol

___________

______________________________________________

Helium Propene

______________________________________________

He C2H6

T K 348.15

T K 423.01 423.02 423.03 ___________

93-big/dun-1

MW = 4.00 MW = 30.07

B12 ± δB12 cm3· mol-1 32.9 ± 6.0

351

Ref.

______________________________________________

92-bel/big

BE ± δBE cm3· mol-1 111.6 ± 1.0

T x1 K 310.00 0.500

___________

Ref.

________________________________________

___________

[7440-59-7] [115-07-1]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 393.20 44.2 ± 2.9 78-war/ste 407.40 40.1 ± 2.8 78-war/ste 407.48 39.8 ± 2.8 78-war/ste 407.50 35.8 ± 2.7 78-war/ste ___________

T K 310.00 ___________

[7440-59-7] [64-17-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 298.15 32.0 ± 6.0 73-gup/les 323.15 41.0 ± 2.0 73-gup/les

BE ± δBE cm3· mol-1 203.8 ± 1.0

T x1 K 310.00 0.500 ___________

Ref.

________________________________________

He C2H6O

92-bel/big

MW = 4.00 MW = 46.07

B12 ± δB12 cm3· mol-1 42.0 ± 6.0

352

Ref.

______________________________________________

He C3H6

73-gup/les

MW = 4.00 MW = 42.08

B12 ± δB12 cm3· mol-1 39.6 ± 2.8 36.6 ± 2.7 34.9 ± 2.7

353

Ref.

______________________________________________

78-war/ste 78-war/ste 78-war/ste

cont. Landolt-Börnstein New Series IV/21B

191

2 Mixtures Containing an Inorganic Compound

Helium + Propene (cont.) Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 393.20 0.561 -37.3 ± 1.9 78-war/ste 393.20 0.567 -36.3 ± 1.9 78-war/ste 407.40 0.565 -34.4 ± 1.9 78-war/ste 407.40 0.565 -34.3 ± 1.9 78-war/ste 407.48 0.567 -35.9 ± 1.9 78-war/ste 407.48 0.567 -35.1 ± 1.9 78-war/ste ___________

__________________________________________

Helium Propane

T K 407.50 407.50 423.01 423.02 423.03 423.03 ___________

[7440-59-7] [74-98-6]

x2

Bm ± δBm cm3· mol-1 -74.1 ± 2.9 -74.1 ± 2.9 -135.5 ± 4.4 -109.9 ± 3.8 -48.6 ± 2.2 -51.8 ± 2.3

Ref.

_________________________________________

0.713 0.713 0.931 0.857 0.652 0.652

He C3H8

MW = 4.00 MW = 44.10

78-war/ste 78-war/ste 78-war/ste 78-war/ste 78-war/ste 78-war/ste

354

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 6.2759 ⋅ 10 − 1.4565 ⋅ 104/(T/K) + 2.1194 ⋅ 106/(T/K)2 + 1.9238 ⋅ 108/(T/K)3 T/K 250 300

(B12 ± 2σest)/cm3· mol-1 50.7 ± 3 44.9 ± 3

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 42.9 ± 3 42.6 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 248.20 51.4 ± 3.0 67-bre (×) 0.3 273.20 45.9 ± 3.0 67-bre (×) -1.4 298.20 46.2 ± 3.0 67-bre (×) 1.2 393.18 43.5 ± 2.9 78-war/ste (♦) 0.9 393.19 42.9 ± 2.9 78-war/ste (♦) 0.3 _________

______________________________________

_____________________________________

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 393.18 0.767 -111.8 ± 3.8 78-war/ste 393.18 0.770 -111.2 ± 3.8 78-war/ste 393.19 0.706 -87.9 ± 3.2 78-war/ste 393.19 0.708 -87.9 ± 3.2 78-war/ste 407.40 0.422 -12.1 ± 1.3 78-war/ste 407.40 0.423 -10.2 ± 1.3 78-war/ste ___________

__________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 248.20 0.500 335.0 ± 0.2 67-bre 273.20 0.500 274.0 ± 0.2 67-bre ___________

________________________________________

T K 407.40 407.49 423.00 423.00 _________

T K 407.49 407.49 423.00 423.00 423.00 423.00 ___________

T K 298.20 ___________

T/K 450

(B12 ± 2σest)/cm3· mol-1 43.0 ± 3

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 44.1 ± 2.9 1.5 37.8 ± 2.8 -4.8 44.8 ± 2.9 2.1 42.6 ± 4.0 -0.1 ______________________________________

x2

_____________________________________

Ref. (Symbol in Fig. 1) 78-war/ste (♦) 78-war/ste (♦) 78-war/ste (♦) 78-war/ste (♦)

Bm ± δBm cm3· mol-1 -56.1 ± 2.4 -58.7 ± 2.5 -4.1 ± 1.1 -104.9 ± 3.6 -2.4 ± 1.1 -104.7 ± 3.6

Ref.

__________________________________________

0.626 0.627 0.391 0.808 0.392 0.808

x1

BE ± δBE cm3· mol-1 234.2 ± 0.2

78-war/ste 78-war/ste 78-war/ste 78-war/ste 78-war/ste 78-war/ste

Ref.

_______________________________________

0.500

67-bre

cont. Landolt-Börnstein New Series IV/21B

192

2 Mixtures Containing an Inorganic Compound

Helium + Propane (cont.)

6

2

3

(B 12 - B 12calc)/cm ·mol

-1

4

0 -2 -4 -6 -8 225

250

275

300

325

350

375

400

425

450

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Helium Octafluorocyclobutane

[7440-59-7] [115-25-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 49.2 ± 5.0 92-bel/big 300.00 53.4 ± 5.0 92-bel/big ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 465.2 ± 1.0 92-bel/big 300.00 0.500 432.1 ± 1.0 92-bel/big ___________

Helium Butane

________________________________________

T K 310.00 ___________

He C4F8

B12 ± δB12 cm3· mol-1 50.0 ± 5.0

355

Ref.

______________________________________________

T x1 K 310.00 0.500 ___________

[7440-59-7] [106-97-8]

MW = 4.00 MW = 200.03

He C4H10

92-bel/big

BE ± δBE cm3· mol-1 397.1 ± 1.0

Ref.

_______________________________________

92-bel/big

MW = 4.00 MW = 58.12

356

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 1.2344 ⋅ 10 + 5.8166 ⋅ 104/(T/K) − 1.3241 ⋅ 107/(T/K)2 cont.

Landolt-Börnstein New Series IV/21B

193

2 Mixtures Containing an Inorganic Compound

Helium + Butane (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 350 45.8 ± 5 400 50.3 ± 5

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 51.5 ± 5 51.0 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 373.30 45.0 ± 5.0 -3.5 67-jon/kay (♦) 373.30 50.8 ± 5.0 2.3 67-jon/kay (♦) 398.20 45.5 ± 5.0 -4.7 67-jon/kay (♦) 398.20 55.4 ± 5.0 5.2 67-jon/kay (♦) 423.20 51.9 ± 5.0 0.7 67-jon/kay (♦) 423.20 53.6 ± 5.0 2.4 67-jon/kay (♦) _________

______________________________________

_____________________________________

T K 448.20 448.20 473.30 473.30 498.30 498.30 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1in Fig. 1) 48.5 ± 5.0 -3.0 67-jon/kay (♦) 56.2 ± 5.0 4.7 67-jon/kay (♦) 47.4 ± 5.0 -4.0 67-jon/kay (♦) 46.1 ± 5.0 -5.3 67-jon/kay (♦) 53.0 ± 5.0 1.9 67-jon/kay (♦) 54.3 ± 5.0 3.2 67-jon/kay (♦) ______________________________________

_____________________________________

10

(B 12 - B 12calc)/cm3·mol-1

8 6 4 2 0 -2 -4 -6 -8 -10 -12 350

375

400

425

450

475

500

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

194

2 Mixtures Containing an Inorganic Compound

Helium Pentane

[7440-59-7] [109-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 333.15 10.9 ± 1.6 83-hou/wan 343.15 10.1 ± 1.6 83-hou/wan 353.15 9.4 ± 1.6 83-hou/wan ___________

______________________________________________

Helium 2,2-Dimethylpropane

[7440-59-7] [463-82-1]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 199.99 69.0 ± 6.9 75-bau/wes 210.00 76.0 ± 7.6 75-bau/wes 220.00 59.0 ± 5.9 75-bau/wes 230.00 60.0 ± 6.0 75-bau/wes ___________

______________________________________________

Helium Benzene

______________________________________________

Helium Hexane

T K 323.20 ___________

[7440-59-7] [110-54-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 333.15 13.7 ± 1.8 83-hou/wan 343.15 12.7 ± 1.8 83-hou/wan 353.15 11.8 ± 1.7 83-hou/wan ___________

T K 240.00 249.58 257.86 ___________

[7440-59-7] [71-43-2]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 323.15 49.0 ± 8.0 68-eve/gai 323.15 -57.0 ± 8.0 68-eve/gai ___________

T K 363.15 373.15 ___________

______________________________________________

T K 363.15 373.15 ___________

He C5H12

MW = 4.00 MW = 72.15

B12 ± δB12 cm3· mol-1 8.8 ± 1.5 8.2 ± 1.5

357

Ref.

______________________________________________

He C5H12

83-hou/wan 83-hou/wan

MW = 4.00 MW = 72.15

B12 ± δB12 cm3· mol-1 60.0 ± 6.0 60.0 ± 6.0 59.0 ± 5.9

358

Ref.

______________________________________________

He C6H6

75-bau/wes 75-bau/wes 75-bau/wes

MW = 4.00 MW = 78.11

B12 ± δB12 cm3· mol-1 67.0 ± 4.0

359

Ref.

______________________________________________

He C6H14

69-coa/kin

MW = 4.00 MW = 86.18

B12 ± δB12 cm3· mol-1 11.0 ± 1.7 10.2 ± 1.6

360

Ref.

______________________________________________

83-hou/wan 83-hou/wan

Landolt-Börnstein New Series IV/21B

195

2 Mixtures Containing an Inorganic Compound

Helium Heptane

[7440-59-7] [142-82-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 333.15 16.4 ± 2.0 83-hou/wan 343.15 15.2 ± 1.9 83-hou/wan 353.15 14.1 ± 1.9 83-hou/wan ___________

______________________________________________

Helium Naphthalene

[7440-59-7] [91-20-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 305.20 67.5 ± 2.8 62-kin/rob ___________

______________________________________________

Mercury Methanol

______________________________________________

Mercury Propanone

______________________________________________

Mercury Propane

Landolt-Börnstein New Series IV/21B

______________________________________________

MW = 4.00 MW = 100.20

B12 ± δB12 cm3· mol-1 13.2 ± 1.8 12.3 ± 1.7

T K 529.20 ___________

361

Ref.

______________________________________________

He C10H8

83-hou/wan 83-hou/wan

MW = 4.00 MW = 128.17

B12 ± δB12 cm3· mol-1 74.7 ± 2.8

362

Ref.

______________________________________________

Hg CH4O

62-kin/rob

MW = 200.59 MW = 32.04

B12 ± δB12 cm3· mol-1 -114 ± 11 -110 ± 11

363

Ref.

______________________________________________

Hg C3H6O

74-ros/kay 74-ros/kay

MW = 200.59 MW = 58.08

T B12 ± δB12 K cm3· mol-1 553.20 -136.0 ± 14.0 573.20 -123.0 ± 12.0 ___________

[7439-97-6] [74-98-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 457.20 -125.0 ± 25.0 57-jep/ric 491.20 -105.0 ± 21.0 57-jep/ric ___________

T K 553.20 573.20 ___________

[7439-97-6] [67-64-1]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 493.20 -156.0 ± 16.0 74-ros/kay 513.20 -154.0 ± 15.0 74-ros/kay 533.20 -146.0 ± 15.0 74-ros/kay ___________

T K 347.20 ___________

[7439-97-6] [67-56-1]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 493.20 -126 ± 13 74-ros/kay 513.20 -120 ± 12 74-ros/kay 533.20 -112 ± 11 74-ros/kay ___________

T K 363.15 373.15 ___________

He C7H16

364

Ref.

_____________________________________________

Hg C3H8

74-ros/kay 74-ros/kay

MW = 200.59 MW = 44.10

B12 ± δB12 cm3· mol-1 -82.0 ± 16.0

Ref.

______________________________________________

57-jep/ric

365

196

2 Mixtures Containing an Inorganic Compound

Mercury Butane

[7439-97-6] [106-97-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 457.20 -195.0 ± 39.0 57-jep/ric 491.20 -175.0 ± 35.0 57-jep/ric ___________

______________________________________________

Krypton Nitrogen

T K 529.20 ___________

[7439-90-9] [7727-37-9]

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 148.20 0.500 19.3 ± 0.2 67-bre 173.20 0.500 13.5 ± 0.2 67-bre 198.20 0.500 10.4 ± 0.2 67-bre ___________

________________________________________

Krypton Neon

Hg C4H10

B12 ± δB12 cm3· mol-1 -157.0 ± 31.0

366

Ref.

_____________________________________________

Kr N2

T x1 K 223.20 0.500 273.20 0.500 323.20 0.500 ___________

[7439-90-9] [7440-01-9]

MW = 200.59 MW = 58.12

57-jep/ric

MW = 83.80 MW = 28.01 BE ± δBE cm3· mol-1 8.0 ± 0.2 6.1 ± 0.2 4.5 ± 0.2

367

Ref.

_______________________________________

Kr Ne

67-bre 67-bre 67-bre

MW = 83.80 MW = 20.18

368

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.0219 ⋅ 10 − 6.1482 ⋅ 103/(T/K) − 6.7100⋅ 104/(T/K)2 T/K 100 150 200

(B12 ± 2σest)/cm3· mol-1 -38.0 ± 4 -13.8 ± 3 -2.2 ± 2

T/K 250 300 350

(B12 ± 2σest)/cm3· mol-1 4.6 ± 2 9.0 ± 2 12.1 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 100.00 -34.5 ± 0.6 72-mil/kid (♦) 3.5 100.00 -37.8 ± 3.0 84-esl/rig (◊) 0.2 110.00 -31.0 ± 0.6 72-mil/kid (♦) 0.2 110.00 -34.2 ± 3.0 84-esl/rig (◊) -3.0 115.00 -27.8 ± 0.6 72-mil/kid (♦) 0.5 115.00 -31.0 ± 3.0 84-esl/rig (◊) -2.7 120.00 -23.7 ± 3.7 62-tho/van-1 (×) 2.0 120.00 -25.5 ± 0.6 72-mil/kid (♦) 0.2 120.00 -29.4 ± 3.0 84-esl/rig (◊) -3.7 123.20 -25.8 ± 2.0 84-esl/rig (◊) -1.7 130.00 -19.9 ± 0.5 72-mil/kid (♦) 1.1 _________

______________________________________

_____________________________________

T K 130.00 133.20 140.00 140.00 148.20 148.20 150.00 150.00 155.80 155.81 163.20 _________

T/K 400 450 500

(B12 ± 2σest)/cm3· mol-1 14.4 ± 3 16.2 ± 3 17.7 ± 3

Bexp ± δB Bexp – Bcalc cm3· mol-1 cm3· mol-1 -25.0 ± 4.0 -4.0 -19.7 ± 2.0 0.0 -14.1 ± 0.5 3.0 -20.5 ± 4.0 -3.4 -12.5 ± 2.0 1.8 -13.8 ± 2.5 0.5 -5.7 ± 0.4 8.1 -14.8 ± 4.0 -1.0 -10.5 ± 0.8 1.5 -9.9 ± 0.8 2.1 -9.8 ± 2.5 0.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 84-esl/rig (◊) 84-esl/rig (◊) 72-mil/kid (♦) 84-esl/rig (◊) 67-bre (…) 84-esl/rig (◊) 72-mil/kid (♦) 84-esl/rig (◊) 62-tho/van-1 (×) 62-tho/van-1 (×) 84-esl/rig (◊) cont.

Landolt-Börnstein New Series IV/21B

197

2 Mixtures Containing an Inorganic Compound

Krypton + Neon (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 166.20 -9.7 ± 2.5 -0.5 173.20 -6.3 ± 2.0 1.2 178.20 -8.2 ± 2.5 -1.8 198.20 -1.2 ± 2.0 1.3 198.80 -3.4 ± 0.6 -1.0 198.81 -2.9 ± 0.6 -0.5 213.00 -2.3 ± 4.0 -2.2 223.00 0.0 ± 4.0 -1.3 223.20 2.5 ± 2.0 1.2 241.20 0.9 ± 0.6 -2.7 241.21 2.4 ± 0.6 -1.2 242.00 2.8 ± 4.0 -0.9 262.00 5.4 ± 4.0 -0.4 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 84-esl/rig (◊) 67-bre (…) 84-esl/rig (◊) 67-bre (…) 62-tho/van-1 (×) 62-tho/van-1 (×) 80-sch/geh („) 80-sch/geh („) 67-bre (…) 62-tho/van-1 (×) 62-tho/van-1 (×) 80-sch/geh („) 80-sch/geh („)

T K 273.20 276.00 294.20 294.20 294.20 295.00 323.20 330.00 365.00 400.00 425.00 450.00 475.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 8.2 ± 2.0 1.4 8.4 ± 5.0 1.3 -1.9 ± 0.6 -10.4 1.5 ± 0.6 -7.0 11.4 ± 0.6 2.9 10.2 ± 5.0 1.6 12.1 ± 2.0 1.5 11.4 ± 5.0 0.4 13.9 ± 5.0 1.0 14.4 ± 5.0 0.0 15.7 ± 5.0 0.3 16.8 ± 5.0 0.6 16.2 ± 5.0 -0.8 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (…) 80-sch/geh („) 62-tho/van-1 (×) 62-tho/van-1 (×) 62-tho/van-1 (×) 80-sch/geh („) 67-bre (…) 80-sch/geh („) 80-sch/geh („) 80-sch/geh („) 80-sch/geh („) 80-sch/geh („) 80-sch/geh („)

10

(B 12 - B 12calc)/cm3·mol-1

8 6 4 2 0 -2 -4 -6 -8 -10 -12 75

125

175

225

275

325

375

425

475

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 120.00 0.577 -68.5 ± 2.0 62-tho/van-1 155.80 0.592 -34.6 ± 2.0 62-tho/van-1 155.81 0.592 -34.3 ± 2.0 62-tho/van-1 ___________

Landolt-Börnstein New Series IV/21B

__________________________________________

T K 198.80 198.81 241.20 ___________

x2

Bm ± δBm cm3· mol-1 -19.6 ± 2.0 -19.3 ± 2.0 -10.1 ± 1.5

Ref.

_________________________________________

0.592 0.592 0.592

62-tho/van-1 62-tho/van-1 62-tho/van-1 cont.

198

2 Mixtures Containing an Inorganic Compound

Krypton + Neon (cont.) Table 3. (cont.) T x2 K 241.21 0.592 294.20 0.577 ___________

Bm ± δBm cm3· mol-1 9.4 ± 1.5 -6.8 ± 1.5

Ref. 62-tho/van-1 62-tho/van-1

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 148.20 0.500 87.4 ± 0.2 67-bre 173.20 0.500 67.2 ± 0.2 67-bre 198.20 0.500 54.4 ± 0.2 67-bre ___________

T K 294.20 294.21 ___________

__________________________________________

________________________________________

Krypton Xenon

T K 223.20 273.20 323.20 ___________

[7439-90-9] [7440-63-3]

x2

Bm ± δBm cm3· mol-1 -5.1 ± 1.5 0.6 ± 1.5

Ref.

BE ± δBE cm3· mol-1 45.4 ± 0.2 34.3 ± 0.2 27.4 ± 0.2

Ref.

_________________________________________

0.577 0.577

x1

62-tho/van-1 62-tho/van-1

________________________________________

0.500 0.500 0.500

Kr Xe

67-bre 67-bre 67-bre

MW = 83.80 MW = 131.29

369

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 4.6804 ⋅ 10 − 2.5419 ⋅ 104/(T/K) − 4.1375 ⋅ 106/(T/K)2 + 2.6799 ⋅ 108/(T/K)3 − 3.5667 ⋅ 1010/(T/K)4 T/K 150 200 250

(B12 ± 2σest)/cm3· mol-1 -297.6 ± 5 -172.5 ± 5 -113.1 ± 5

T/K 350 450 550

(B12 ± 2σest)/cm3· mol-1 -55.7 ± 5 -28.0 ± 5 -11.9 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 160.00 -261.3 ± 4.0 1.4 71-pol (…) 170.00 -235.0 ± 4.0 -1.0 71-pol (…) 173.20 -229.5 ± 4.0 -3.6 67-bre (×) 180.00 -209.0 ± 4.0 1.1 71-pol (…) 190.00 -188.5 ± 4.0 1.4 71-pol (…) 198.20 -177.6 ± 3.0 -2.1 67-bre (×) 200.00 -170.7 ± 4.0 1.8 71-pol (…) 202.00 -164.8 ± 6.0 4.5 77-sch/sch („) 213.00 -150.0 ± 6.0 3.3 77-sch/sch („) 233.00 -130.6 ± 6.0 -1.2 77-sch/sch(„) 220.00 -142.1 ± 4.0 2.2 71-pol (…) 223.20 -143.1 ± 3.0 -2.7 67-bre (×) 240.00 -120.1 ± 4.0 2.2 71-pol (…) 253.00 -112.4 ± 6.0 -1.9 77-sch/sch („) 260.00 -101.9 ± 4.0 2.8 71-pol (…) _________

______________________________________

_____________________________________

T K 273.20 278.00 278.00 280.00 295.00 300.00 320.00 323.20 335.00 343.00 370.00 400.00 411.00 435.00 465.00 _________

T/K 650 750

(B12 ± 2σest)/cm3· mol-1 -1.3 ± 5 6.1 ± 5

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -94.7 ± 3.0 0.2 -95.8 ± 6.0 -4.1 -95.8 ± 6.0 -4.1 -88.8 ± 4.0 1.5 -79.0 ± 6.0 2.2 -77.5 ± 4.0 0.9 -67.7 ± 4.0 0.6 -67.6 ± 3.0 -0.8 -61.7 ± 6.0 -0.1 -59.9 ± 6.0 -1.5 -48.6 ± 6.0 0.1 -39.6 ± 6.0 0.2 -37.0 ± 6.0 -0.1 -31.0 ± 6.0 0.2 -25.0 ± 6.0 0.1 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (×) 77-sch/sch („) 77-sch/sch („) 71-pol (…) 77-sch/sch („) 71-pol (…) 71-pol (…) 67-bre (×) 77-sch/sch („) 77-ren/sch (♦) 77-sch/sch („) 77-sch/sch („) 77-ren/sch (♦) 77-sch/sch („) 77-sch/sch („) cont.

Landolt-Börnstein New Series IV/21B

199

2 Mixtures Containing an Inorganic Compound

Krypton + Xenon (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 481.00 -21.2 ± 6.0 1.0 500.00 -19.0 ± 6.0 0.0 553.00 -12.3 ± 6.0 -0.8 ______________________________________

3

(B 12 - B 12calc)/cm ·mol

-1

_________

_____________________________________

Ref. (Symbol T in Fig. 1) K 77-ren/sch (♦) 623.00 77-sch/sch („) 700.00 77-ren/sch (♦) _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -4.1 ± 6.0 -0.3 1.8 ± 6.0 -0.9 ______________________________________

Ref. (Symbol in Fig. 1) 77-ren/sch (♦) 77-ren/sch (♦)

_____________________________________

12 10 8 6 4 2 0 -2 -4 -6 -8 -10 -12 150

200

250

300

350

400

450

500

550

600

650

700

750

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 173.20 0.500 31.3 ± 0.2 67-bre 198.20 0.500 23.9 ± 0.2 67-bre 223.20 0.500 17.7 ± 0.2 67-bre ___________

________________________________________

Krypton Tetrafluoromethane

[7439-90-9] [75-73-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 290.00 -62.3 ± 1.4 86-dun/big 300.00 -56.3 ± 1.2 86-dun/big ___________

______________________________________________

T x1 K 273.20 0.500 323.20 0.500 ___________

T K 320.00 ___________

Kr CF4

BE ± δBE cm3· mol-1 13.9 ± 0.2 9.5 ± 0.2

Ref.

________________________________________

67-bre 67-bre

MW = 83.80 MW = 88.00

B12 ± δB12 cm3· mol-1 -46.5 ± 0.9

370

Ref.

______________________________________________

86-dun/big cont.

Landolt-Börnstein New Series IV/21B

200

2 Mixtures Containing an Inorganic Compound

Krypton + Tetrafluoromethane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 13.0 ± 0.4 86-dun/big 300.00 0.500 12.3 ± 0.4 86-dun/big ___________

________________________________________

Krypton Methane

T x1 K 320.00 0.500 ___________

[7439-90-9] [74-82-8]

BE ± δBE cm3· mol-1 10.8 ± 0.4

Ref.

________________________________________

Kr CH4

86-dun/big

MW = 83.80 MW = 16.04

371

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 6.2243 ⋅ 10 − 3.1992 ⋅ 104/(T/K) + 5.2235 ⋅ 105/(T/K)2 − 2.1294 ⋅ 108/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -291.3 ± 3 -190.9 ± 2

T/K 120 150

T/K 200 250

(B12 ± 2σest)/cm3· mol-1 -111.3 ± 2 -71.0 ± 2

T/K 300

(B12 ± 2σest)/cm3· mol-1 -46.5 ± 2

6 5

(B 12 - B 12calc)/cm3·mol-1

4 3 2 1 0 -1 -2 -3 -4 100

120

140

160

180

200

220

240

260

280

300

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

201

2 Mixtures Containing an Inorganic Compound

Krypton + Methane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 118.70 -297.2 ± 3.0 68-byr/jon („) 0.3 121.10 -286.3 ± 3.0 -0.1 68-byr/jon („) 123.20 -274.9 ± 3.0 67-bre (▲) 2.0 125.40 -268.2 ± 2.0 -0.6 68-byr/jon („) 132.10 -243.9 ± 2.0 -1.5 68-byr/jon („) 141.20 -213.9 ± 1.5 -0.1 68-byr/jon („) 148.20 -193.9 ± 2.0 67-bre (▲) 1.4 152.20 -185.3 ± 1.5 68-byr/jon („) 0.5 166.40 -157.1 ± 1.5 68-byr/jon („) 0.3 _________

______________________________________

_____________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 123.20 0.500 1.7 ± 0.2 67-bre 148.20 0.500 1.2 ± 0.2 67-bre 173.20 0.500 0.7 ± 0.2 67-bre ___________

________________________________________

Krypton Hexafluoroethane

T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 173.20 -145.3 ± 1.5 67-bre (▲) 0.7 182.10 -134.6 ± 1.5 -1.6 68-byr/jon („) 200.40 -112.1 ± 1.5 -1.3 68-byr/jon („) 221.60 -91.7 ± 1.5 -0.6 68-byr/jon („) 223.20 -88.9 ± 1.0 0.9 67-bre (▲) 226.00 -86.8 ± 1.5 0.7 68-byr/jon („) 245.70 -73.8 ± 1.5 -0.1 68-byr/jon („) 270.80 -60.6 ± 1.5 -1.1 68-byr/jon („) 273.20 -58.0 ± 1.0 0.3 67-bre (▲) _________

______________________________________

T x1 K 223.20 0.500 273.20 0.500 ___________

[7439-90-9] [76-16-4]

Kr C2F6

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 -104.9 ± 10.0 92-bel/big 300.00 -92.2 ± 10.0 92-bel/big

T K 310.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 62.1 ± 1.0 92-bel/big 300.00 0.500 60.4 ± 1.0 92-bel/big

T x1 K 310.00 0.500

___________

______________________________________________

___________

_______________________________________

Krypton 1,1-Difluoroethane

______________________________________________

T K 310.00 ___________

BE ± δBE cm3· mol-1 0.3 ± 0.2 0.2 ± 0.2

Ref.

________________________________________

67-bre 67-bre

MW = 83.80 MW = 138.01

B12 ± δB12 cm3· mol-1 -87.9 ± 9.0

372

Ref.

______________________________________________

92-bel/big

BE ± δBE cm3· mol-1 54.5 ± 1.0

___________

[7439-90-9] [75-37-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 -112.9 ± 10.0 92-bel/big 300.00 -98.8 ± 10.0 92-bel/big ___________

___________

_____________________________________

Ref.

_______________________________________

Kr C2H4F2

92-bel/big

MW = 83.80 MW = 66.05

B12 ± δB12 cm3· mol-1 -90.4 ± 9.0

373

Ref.

______________________________________________

92-bel/big

cont. Landolt-Börnstein New Series IV/21B

202

2 Mixtures Containing an Inorganic Compound

Krypton + 1,1-Difluoroethane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 194.5 ± 1.0 92-bel/big 300.00 0.500 179.1 ± 1.0 92-bel/big ___________

________________________________________

Krypton Ethane

[7439-90-9] [74-84-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 -98.6 ± 10.0 92-bel/big 300.00 -91.2 ± 10.0 92-bel/big ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 26.9 ± 1.0 92-bel/big 300.00 0.500 25.1 ± 1.0 92-bel/big ___________

_______________________________________

Krypton Octafluorocyclobutane

______________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 290.00 0.500 259.6 ± 1.0 92-bel/big 300.00 0.500 238.8 ± 1.0 92-bel/big ___________

________________________________________

Nitrogen Nitric oxide

___________

T K 310.00 ___________

T K 310.00 ___________

T K 310.00

______________________________________________

T K 173.00 213.00

Ref. 92-bel/big

MW = 83.80 MW = 30.07

374

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1 26.0 ± 1.0

92-bel/big

Ref.

_______________________________________

0.500

Kr C4F8

92-bel/big

MW = 83.80 MW = 200.03

B12 ± δB12 cm3· mol-1 -159.8 ± 5.0

375

Ref.

_____________________________________________

x1

___________

___________

BE ± δBE cm3· mol-1 162.5 ± 1.0 ________________________________________

B12 ± δB12 cm3· mol-1 -82.2 ± 9.0

T K 310.00

[7727-37-9] [10102-43-9]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 124.00 -127.0 ± 8.0 88-fos/nat 140.00 -104.8 ± 7.0 88-fos/nat

Kr C2H6

___________

[7439-90-9] [115-25-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 -190.0 ± 5.0 92-bel/big 300.00 -170.0 ± 5.0 92-bel/big ___________

T x1 K 310.00 0.500 ___________

BE ± δBE cm3· mol-1 216.9 ± 1.0

92-bel/big

Ref.

________________________________________

0.500

N2 NO

92-bel/big

MW = 28.01 MW = 30.01 B12 ± δB12 cm3· mol-1 -65.5 ± 5.0 -37.2 ± 4.0

376

Ref.

______________________________________________

88-fos/nat 88-fos/nat cont.

Landolt-Börnstein New Series IV/21B

203

2 Mixtures Containing an Inorganic Compound

Nitrogen + Nitric oxide (cont.) Table 2. (cont.) T B12 ± δB12 K cm3· mol-1 296.00 -11.9 ± 2.0 353.00 -0.9 ± 3.0 403.00 5.6 ± 3.0 ___________

Ref.

B12 ± δB12 cm3· mol-1 10.7 ± 4.0 12.7 ± 4.0

T K 455.00 476.00 ___________

______________________________________________

88-fos/nat 88-fos/nat 88-fos/nat

Nitrogen Neon

[7727-37-9] [7440-01-9]

Ref.

______________________________________________

N2 Ne

88-fos/nat 88-fos/nat

MW = 28.01 MW = 20.18

377

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.2807 ⋅ 10 − 5.4303 ⋅ 103/(T/K) − 1.2152 ⋅ 105/(T/K)2 + 8.2859 ⋅ 106/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -25.4 ± 3 -6.3 ± 3 3.7 ± 3

T/K 100 150 200

T/K 250 300 350

(B12 ± 2σest)/cm3· mol-1 9.7 ± 3 13.7 ± 3 16.5 ± 3

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 18.6 ± 3 20.2 ± 3

4

3

(B 12 - B 12calc)/cm ·mol

-1

3 2 1 0 -1 -2 -3 -4 75

125

175

225

275

325

375

425

475

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

204

2 Mixtures Containing an Inorganic Compound

Nitrogen + Neon (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 90.00 -31.0 ± 3.0 0.2 59-kno/bee (×) 148.15 -6.5 ± 3.0 0.3 69-bre/vau (…) 173.15 -0.5 ± 3.0 0.5 69-bre/vau (…) 198.15 3.3 ± 3.0 -0.1 69-bre/vau (…) 223.15 6.4 ± 3.0 -0.4 69-bre/vau (…) 248.15 9.1 ± 3.0 -0.4 69-bre/vau (…) _________

______________________________________

_____________________________________

Nitrogen Oxygen

T K 273.15 296.15 298.15 323.15 353.15 463.15 _________

[7727-37-9] [7782-44-7]

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 11.3 ± 3.0 -0.4 14.0 ± 1.5 0.6 13.3 ± 3.0 -0.2 15.0 ± 3.0 -0.1 17.0 ± 2.0 0.4 20.2 ± 3.0 -0.4 ______________________________________

N2 O2

_____________________________________

Ref. (Symbol in Fig. 1) 69-bre/vau (…) 96-vat/sch (▲) 69-bre/vau (…) 69-bre/vau (…) 96-vat/sch (▲) 96-vat/sch (▲)

MW = 28.01 MW = 32.00

378

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.8110 ⋅ 10 − 1.2265 ⋅ 104/(T/K) − 6.6992 ⋅ 105/(T/K)2 − 3.2660 ⋅ 107/(T/K)3 + 1.1664 ⋅ 109/(T/K)4 T/K 90 100 150

(B12 ± 2σest)/cm3· mol-1 -207.8 ± 5 -172.5 ± 5 -80.8 ± 3

T/K 200 250 300

(B12 ± 2σest)/cm3· mol-1 -43.3 ± 3 -23.5 ± 3 -11.3 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 87.20 -247.0 ± 7.0 -27.3 88-fos/nat („) 90.00 -209.0 ± 3.0 -1.1 59-kno/bee (…) 140.00 -96.3 ± 5.0 -3.8 88-fos/nat („) 188.15 -50.6 ± 1.7 -0.6 94-hal/igl (▲) 190.00 -49.6 ± 4.0 -0.7 88-fos/nat („) 203.15 -42.1 ± 1.7 -0.4 94-hal/igl (▲) 220.00 -34.8 ± 3.0 -0.7 88-fos/nat („) 223.15 -33.3 ± 1.7 -0.5 94-hal/igl (▲) 240.00 -25.1 ± 2.0 1.5 88-fos/nat („) 248.15 -24.4 ± 1.7 -0.4 94-hal/igl (▲) 273.15 -17.2 ± 0.2 0.0 94-hal/igl (▲) 290.00 -12.5 ± 1.0 0.8 82-mar/tre (∆) 298.15 -11.9 ± 0.2 -0.3 94-hal/igl (▲) 300.00 -10.8 ± 0.9 0.5 82-mar/tre (∆) 303.15 -9.7 ± 0.3 1.0 53-gor/mil (×) 320.00 -7.9 ± 0.9 -0.3 82-mar/tre (∆) 323.15 -7.5 ± 0.2 -0.4 94-hal/igl (▲) _________

______________________________________

_____________________________________

T/K 350 400 500

(B12 ± 2σest)/cm3· mol-1 -3.1 ± 3 2.8 ± 3 10.7 ± 3

T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 348.15 -3.6 ± 0.8 -0.3 94-hal/igl (▲) 350.00 -3.0 ± 0.8 0.1 94-hal/igl (▲) 353.00 -0.1 ± 2.0 2.6 88-fos/nat („) 360.00 -1.6 ± 0.8 0.2 94-hal/igl (▲) 370.00 -0.4 ± 0.8 0.1 94-hal/igl (▲) 380.00 0.7 ± 0.8 0.0 94-hal/igl (▲) 390.00 1.8 ± 0.8 0.0 94-hal/igl (▲) 400.00 4.6 ± 0.8 1.8 94-hal/igl (▲) 403.00 6.1 ± 3.0 3.0 88-fos/nat („) 430.00 5.4 ± 0.8 -0.2 94-hal/igl (▲) 440.00 6.2 ± 0.8 -0.2 94-hal/igl (▲) 450.00 6.9 ± 0.8 -0.3 94-hal/igl (▲) 455.00 10.5 ± 3.0 2.9 88-fos/nat („) 460.00 7.6 ± 0.8 -0.4 94-hal/igl (▲) 470.00 8.2 ± 0.8 -0.5 94-hal/igl (▲) 476.00 12.2 ± 3.0 3.1 88-fos/nat („) 480.00 8.8 ± 0.8 -0.6 94-hal/igl (▲) _________

______________________________________

_____________________________________

cont. Landolt-Börnstein New Series IV/21B

205

2 Mixtures Containing an Inorganic Compound

Nitrogen + Oxygen (cont.) 8 6

( B 12 - B 12calc)/cm3·mol-1

4 2 0 -2 -4 -6 -8 -10 -12 -14 50

100

150

200

250

300

350

400

450

500

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 290.00 0.790 -9.6 ± 0.1 84-izu

T x1 K 302.20 0.790

Bm ± δBm cm3· mol-1 -7.4 ± 0.1

Ref.

Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 290.00 0.790 1.5 ± 0.1 84-izu

T x1 K 302.20 0.790

Cm ± δCm 10 · cm6· mol-2 1.5 ± 0.1

Ref.

___________

___________

__________________________________________

___________________________________________________________

Nitrogen Xenon

___________

[7727-37-9] [7440-63-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 173.20 -125.4 ± 2.0 67-bre 223.20 -74.4 ± 2.0 67-bre ___________

___________

______________________________________________

T K 273.20 323.20 ___________

N2 Xe

__________________________________________

84-izu

___________________________________________________________

3

84-izu

MW = 28.01 MW = 131.29 B12 ± δB12 cm3· mol-1 -45.4 ± 2.0 -27.2 ± 2.0

379

Ref.

_____________________________________________

67-bre 67-bre

cont. Landolt-Börnstein New Series IV/21B

206

2 Mixtures Containing an Inorganic Compound

Nitrogen + Xenon (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 173.20 0.500 84.7 ± 0.2 67-bre 223.20 0.500 52.2 ± 0.2 67-bre ___________

________________________________________

Nitrogen Tetrachloromethane

[7727-37-9] [56-23-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 273.20 -132.0 ± 4.0 72-gup/kin 298.20 -102.0 ± 4.0 72-gup/kin 323.15 -58.5 ± 5.9 59-pra/ben 323.20 -91.0 ± 2.0 72-gup/kin ___________

______________________________________________

Nitrogen Tetrafluoromethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 17.6 ± 0.4 86-dun/big 300.00 0.500 16.4 ± 0.4 86-dun/big ___________

________________________________________

Nitrogen Chlorodifluoromethane

___________

______________________________________________

N2 CCl4

T K 293.20 298.20 ___________

67-bre 67-bre

MW = 28.01 MW = 153.82

B12 ± δB12 cm3· mol-1 -49.6 ± 5.5 -64.0 ± 2.0 -24.0 ± 10.0

380

Ref.

______________________________________________

N2 CF4

59-pra/ben 72-gup/kin 71-vig/sem

MW = 28.01 MW = 88.00

B12 ± δB12 cm3· mol-1 -22.2 ± 1.4

T K 320.00

[7727-37-9] [75-45-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 248.20 -42.6 ± 6.0 67-bre 273.20 -66.2 ± 5.0 67-bre

0.500 0.500

___________

T K 320.00

Ref.

________________________________________

T K 348.15 348.20 353.20

___________

BE ± δBE cm3· mol-1 37.1 ± 0.2 28.6 ± 0.2

x1

___________

[7727-37-9] [75-73-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 -33.0 ± 1.4 86-dun/big 300.00 -29.0 ± 1.4 86-dun/big ___________

T K 273.20 323.00 ___________

381

Ref.

______________________________________________

BE ± δBE cm3· mol-1 14.9 ± 0.4

x1

86-dun/big

Ref.

________________________________________

0.500

N2 CHClF2

86-dun/big

MW = 28.01 MW = 86.47

B12 ± δB12 cm3· mol-1 -86.8 ± 5.0 -60.9 ± 4.0

382

Ref.

______________________________________________

90-jia/wan 67-bre

cont. Landolt-Börnstein New Series IV/21B

207

2 Mixtures Containing an Inorganic Compound

Nitrogen + Chlorodifluoromethane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 248.20 0.500 238.7 ± 0.2 67-bre 273.20 0.500 157.0 ± 0.2 67-bre ___________

________________________________________

Nitrogen Trichloromethane

[7727-37-9] [67-66-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 293.15 -103 ± 10 87-bar/new 298.15 -100 ± 4 73-gup/les 308.15 -78 ± 7 87-bar/new ___________

T K 298.20 ___________

______________________________________________

Nitrogen Dichloromethane

T K 323.15 353.20 ___________

[7727-37-9] [75-09-2]

BE ± δBE cm3· mol-1 121.1 ± 0.2

x1

Ref.

_______________________________________

0.500

N2 CHCl3

67-bre

MW = 28.01 MW = 119.38

B12 ± δB12 cm3· mol-1 -30 ± 3 -12 ± 10

383

Ref.

______________________________________________

N2 CH2Cl2

87-bar/new 71-vig/sem

MW = 28.01 MW = 84.93

384

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 8.1349 ⋅ 102 − 9.0416 ⋅ 105/(T/K) + 3.2388 ⋅ 108/(T/K)2 − 4.0768 ⋅ 1010/(T/K)3 T/K 325

(B12 ± 2σest)/cm3· mol-1 -89.8 ± 10

T/K 350

(B12 ± 2σest)/cm3· mol-1 -76.8 ± 9

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 323.20 -91 ± 11.0 0.0 98-wor/joh 1 (♦) 333.20 -84 ± 11.0 0.9 98-wor/joh 1 (♦) 343.20 -81 ± 10.0 -1.2 98-wor/joh 1 (♦) 353.20 -76 ± 10.0 -0.6 98-wor/joh 1 (♦) 363.20 -71 ± 10.0 0.6 98-wor/joh 1 (♦) 373.20 -67 ± 9.0 1.1 98-wor/joh 1 (♦) _________

______________________________________

_____________________________________

T K 383.20 393.20 403.20 413.20 423.20 _________

T/K 425

(B12 ± 2σest)/cm3· mol-1 -51.9 ± 8

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -65 ± 9.0 -0.1 98-wor/joh 1 (♦) -62 ± 9.0 -0.2 98-wor/joh 1 (♦) -59 ± 8.0 -0.3 98-wor/joh 1 (♦) -56 ± 8.0 -0.4 98-wor/joh 1 (♦) -52 ± 8.0 0.5 98-wor/joh 1 (♦)

______________________________________

_____________________________________

cont. Landolt-Börnstein New Series IV/21B

208

2 Mixtures Containing an Inorganic Compound

Nitrogen + Dichloromethane (cont.) 15

5

3

(B 12 - B 12calc)/cm ·mol

-1

10

0

-5

-10

-15 3 00

3 25

3 50

3 75

4 00

4 25

4 50

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Nitrogen Nitromethane

[7727-37-9] [75-52-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 353.20 41 ± 4 71-vig/sem ___________

Nitrogen Methane

______________________________________________

N2 CH3NO2

B12 ± δB12 cm3· mol-1

T K

___________

[7727-37-9] [74-82-8]

MW = 28.01 MW = 61.04

385

Ref.

______________________________________________

N2 CH4

MW = 28.01 MW = 16.04

386

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.3092 ⋅ 10 − 1.6786 ⋅ 103/(T/K) − 3.3822 ⋅ 106/(T/K)2 + 7.1634 ⋅ 107/(T/K)3 cont.

Landolt-Börnstein New Series IV/21B

209

2 Mixtures Containing an Inorganic Compound

Nitrogen + Methane (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 175 -83.6 ± 8 200 -60.9 ± 5

T/K 250 300

(B12 ± 2σest)/cm3· mol-1 -33.2 ± 3 -17.4 ± 3

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 173.15 -87.3 ± 1.0 -1.7 71-ng (…) 173.15 -74.6 ± 8.0 11.0 89-did/zhd 1 („) 193.15 -68.0 ± 1.0 -1.7 71-ng (…) 198.15 -56.8 ± 8.0 5.5 89-did/zhd 1 („) 213.15 -53.9 ± 1.0 -2.1 71-ng (…) 223.15 -43.0 ± 5.0 2.9 89-did/zhd 1 („) 233.15 -42.4 ± 1.0 -1.7 71-ng (…) 248.15 -31.9 ± 5.0 2.0 89-did/zhd 1 („) 253.15 -33.4 ± 1.0 -1.5 71-ng (…) 273.15 -26.7 ± 0.6 -1.8 71-ng (…) 273.15 -25.8 ± 0.5 -0.9 88-jae/aud (∆) 273.15 -22.9 ± 5.0 2.0 89-did/zhd 1 („) 288.70 -17.8 ± 5.0 2.5 61-mas/eak (×) 290.00 -19.8 ± 1.1 0.2 82-mar/tre (▲)

T K 293.15 293.15 293.15 298.15 300.00 313.15 313.15 320.00 333.15 333.15 348.15 353.15 373.15 393.15

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 173.15 0.189 -1540 ± 560 89-did/zhd 173.15 0.386 -290 ± 330 89-did/zhd 173.15 0.588 -990 ± 270 89-did/zhd 173.15 0.794 -300 ± 480 89-did/zhd 173.15 0.189 -838 ± 100 89-did/zhd 173.15 0.386 -701 ± 66 89-did/zhd 173.15 0.588 -603 ± 60 89-did/zhd 173.15 0.794 -502 ± 80 89-did/zhd 198.15 0.189 -784 ± 49 89-did/zhd 198.15 0.386 -837 ± 99 89-did/zhd 198.15 0.588 -486 ± 49 89-did/zhd 198.15 0.794 -377 ± 49 89-did/zhd 198.15 0.189 -753 ± 16 89-did/zhd 198.15 0.386 -746 ± 20 89-did/zhd 198.15 0.588 -470 ± 16 89-did/zhd 198.15 0.794 -385 ± 20 89-did/zhd 223.15 0.189 -384 ± 19 89-did/zhd 223.15 0.386 -397 ± 93 89-did/zhd 223.15 0.588 -382 ± 74 89-did/zhd 223.15 0.794 -262 ± 74 89-did/zhd 223.15 0.189 -581 ± 20 89-did/zhd

T K 223.15 223.15 223.15 248.15 248.15 248.15 248.15 248.15 248.15 248.15 248.15 273.15 273.15 273.15 273.15 273.15 273.15 273.15 273.15 298.15 298.15

_________

______________________________________

___________

Landolt-Börnstein New Series IV/21B

_____________________________________

__________________________________________

_________

___________

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -7.6 ± 3 -1.1 ± 2

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -19.6 ± 0.6 -0.5 71-ng (…) -19.7 ± 0.5 -0.6 88-jae/aud (∆) -21.6 ± 2.8 -2.5 91-lop/roz (z) -15.4 ± 5.0 2.5 89-did/zhd 1 („) -17.3 ± 1.0 0.1 82-mar/tre (▲) -15.1 ± 0.6 -0.7 71-ng (…) -14.7 ± 0.5 -0.3 88-jae/aud (∆) -12.9 ± 1.0 0.1 82-mar/tre (▲) -10.6 ± 0.5 -0.1 71-ng (…) -10.8 ± 0.5 -0.3 88-jae/aud (∆) -3.6 ± 4.0 4.3 89-did/zhd 1 („) -7.1 ± 0.5 0.1 71-ng (…) -5.1 ± 0.5 -0.8 71-ng (…) -2.5 ± 0.5 -0.6 71-ng (…) ______________________________________

x1

_____________________________________

Bm ± δBm cm3· mol-1 -564 ± 32 -475 ± 28 -354 ± 19 -737 ± 100 -479 ± 41 -190 ± 100 -281 ± 21 -633 ± 21 -487 ± 21 -363 ± 41 -291 ± 17 -393 ± 91 -520 ± 23 -304 ± 34 309 ± 390 -509 ± 23 -477 ± 20 -343 ± 23 -291 ± 91 -290 ± 22 -260 ± 20

Ref.

_________________________________________

0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386

89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd cont.

210

2 Mixtures Containing an Inorganic Compound

Nitrogen + Methane (cont.) Table 3. (cont.) T x1 K 298.15 0.588 298.15 0.794 298.15 0.189 298.15 0.386 298.15 0.588 298.15 0.794 348.15 0.189 ___________

Bm ± δBm cm3· mol-1 -170 ± 17 -62 ± 7 -526 ± 20 -208 ± 25 -149 ± 17 -57 ± 7 -160 ± 12

Ref.

T K 348.15 348.15 348.15 348.15 348.15 348.15 348.15

x1

___________

__________________________________________

89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd

Bm ± δBm cm3· mol-1 -210 ± 14 -49 ± 17 29 ± 14 -168 ± 12 -203 ± 12 -61 ± 14 26 ± 14

Ref.

_________________________________________

0.386 0.588 0.794 0.189 0.386 0.588 0.794

89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd

20

(B 12 - B 12calc)/cm3.mol-1

15 10 5 0 -5 -10 150

200

250

300

350

400

T /K

Fig. 1 The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 273.20 0.500 6.2 ± 0.2 67-bre 290.00 0.500 6.1 ± 0.2 82-mar/tre ___________

________________________________________

T K 300.00 320.00 ___________

x1

BE ± δBE cm3· mol-1 5.9 ± 0.2 5.4 ± 0.2

Ref.

________________________________________

0.500 0.500

82-mar/tre 82-mar/tre

cont.

Landolt-Börnstein New Series IV/21B

211

2 Mixtures Containing an Inorganic Compound

Nitrogen + Methane (cont.) Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. K 103· cm6· mol-2 173.15 0.189 0.0 ± 0.1 89-did/zhd 173.15 0.386 -0.2 ± 0.1 89-did/zhd 173.15 0.588 0.0 ± 0.0 89-did/zhd 173.15 0.794 0.0 ± 0.0 89-did/zhd 173.15 0.189 -0.2 ± 0.0 89-did/zhd 173.15 0.386 -0.1 ± 0.0 89-did/zhd 173.15 0.588 -0.1 ± 0.0 89-did/zhd 173.15 0.794 -0.0 ± 0.0 89-did/zhd 173.15 0.189 28.2 ± 3.0 89-did/zhd-1 173.15 0.386 29.1 ± 2.3 89-did/zhd-1 173.15 0.588 26.9 ± 3.2 89-did/zhd-1 173.15 0.794 17.2 ± 1.2 89-did/zhd-1 198.15 0.189 0.0 ± 0.0 89-did/zhd 198.15 0.386 0.0 ± 0.0 89-did/zhd 198.15 0.588 -0.0 ± 0.0 89-did/zhd 198.15 0.794 0.0 ± 0.0 89-did/zhd 198.15 0.189 -0.0 ± 0.0 89-did/zhd 198.15 0.386 -0.0 ± 0.0 89-did/zhd 198.15 0.588 -0.0 ± 0.0 89-did/zhd 198.15 0.794 -0.0 ± 0.0 89-did/zhd 198.15 0.386 15.1 ± 0.6 89-did/zhd-1 198.15 0.588 14.5 ± 0.9 89-did/zhd-1 198.15 0.794 17.2 ± 0.5 89-did/zhd-1 223.15 0.189 -0.0 ± 0.0 89-did/zhd 223.15 0.386 -0.0 ± 0.0 89-did/zhd 223.15 0.588 0.0 ± 0.0 89-did/zhd 223.15 0.794 0.0 ± 0.0 89-did/zhd 223.15 0.189 -0.0 ± 0.0 89-did/zhd 223.15 0.386 0.0 ± 0.0 89-did/zhd 223.15 0.588 0.0 ± 0.0 89-did/zhd 223.15 0.794 0.0 ± 0.0 89-did/zhd 223.15 0.189 10.3 ± 0.5 89-did/zhd-1 223.15 0.386 11.9 ± 0.5 89-did/zhd-1 223.15 0.588 10.6 ± 0.4 89-did/zhd-1 223.15 0.794 6.2 ± 0.1 89-did/zhd-1 248.15 0.189 0.0 ± 0.0 89-did/zhd 248.15 0.386 0.0 ± 0.0 89-did/zhd 248.15 0.588 -0.0 ± 0.0 89-did/zhd 248.15 0.794 0.0 ± 0.0 89-did/zhd 248.15 0.189 0.0 ± 0.0 89-did/zhd 248.15 0.386 0.0 ± 0.0 89-did/zhd ___________

___________________________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 273.15 1.8 ± 0.2 88-jae/aud 293.15 1.7 ± 0.2 88-jae/aud ___________

__________________________________________________________

T K 248.15 248.15 248.15 248.15 248.15 248.15 273.15 273.15 273.15 273.15 273.15 273.15 273.15 273.15 273.15 273.15 273.15 273.15 298.15 298.15 298.15 298.15 298.15 298.15 298.15 298.15 298.15 298.15 298.15 298.15 348.15 348.15 348.15 348.15 348.15 348.15 348.15 348.15 348.15 348.15 348.15 ___________

T K 313.15 333.15 ___________

x1

Cm ± δCm 103· cm6· mol-2 0.0 ± 0.0 0.0 ± 0.0 6.9 ± 0.1 7.3 ± 0.2 7.5 ± 0.2 4.6 ± 0.1 0.0 ± 0.0 0.0 ± 0.0 0.0 ± 0.0 -0.1 ± 0.1 0.0 ± 0.0 0.0 ± 0.0 0.0 ± 0.0 0.1 ± 0.1 4.4 ± 0.2 5.4 ± 0.1 5.3 ± 0.1 3.2 ± 0.2 0.0 ± 0.0 0.0 ± 0.0 0.0 ± 0.0 0.0 ± 0.0 0.0 ± 0.0 0.0 ± 0.0 0.0 ± 0.0 0.0 ± 0.0 4.0 ± 0.1 4.1 ± 0.1 3.8 ± 0.1 2.8 ± 0.2 -0.0 ± 0.0 0.0 ± 0.0 -0.0 ± 0.0 -0.0 ± 0.0 -0.0 ± 0.0 0.0 ± 0.0 -0.0 ± 0.0 -0.0 ± 0.0 0.6 ± 0.1 0.5 ± 0.0 -0.2 ± 0.1

Ref.

___________________________________________________________

0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.588 0.794 0.189 0.386 0.584

C112 ± δC112 103· cm6· mol-2 1.7 ± 0.2 1.7 ± 0.2

89-did/zhd 89-did/zhd 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud cont.

Landolt-Börnstein New Series IV/21B

212

2 Mixtures Containing an Inorganic Compound

Nitrogen + Methane (cont.) Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 273.15 2.2 ± 0.2 88-jae/aud 293.15 2.0 ± 0.2 88-jae/aud ___________

__________________________________________________________

Nitrogen Methanol

T K 313.15 333.15 ___________

[7727-37-9] [67-56-1]

C122 ± δC122 103· cm6· mol-2 1.9 ± 0.2 1.9 ± 0.2

Ref.

__________________________________________________________

N2 CH4O

88-jae/aud 88-jae/aud

MW = 28.01 MW = 32.04

387

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 3.4678 ⋅ 102 + 2.6522 ⋅ 105/(T/K) − 6.9489 ⋅ 107/(T/K)2 + 4.2123 ⋅ 109/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -170.9 ± 10 -128.1 ± 10

T/K 225 250

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -78.8 ± 10 -58.0 ± 10

T/K

(B12 ± 2σest)/cm3· mol-1

25 20

(B 12 - B 12calc)/cm3·mol-1

15 10 5 0 -5 -10 -15 -20 -25 225

250

275

300

325

350

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

213

2 Mixtures Containing an Inorganic Compound

Nitrogen + Methanol (cont.) Table 2. Experimental B12 values with uncertainty. T T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1 K 227.60 -175.0 ± 11.0 -9.3 303.20 80-laz/bre (♦) 241.20 -132.0 ± 15.0 9.4 93-sch/lan (z) 310.15 250.70 -136.0 ± 8.0 -8.8 318.20 80-laz/bre (♦) 261.70 -108.0 ± 15.0 4.9 93-sch/lan (z) 323.15 282.60 -89.0 ± 10.0 2.7 93-sch/lan (z) 333.15 283.20 -91.0 ± 9.0 0.2 333.20 80-laz/bre (♦) 288.15 -91.0 ± 3.0 -3.8 72-hem/kin (×) 348.20 298.15 -81.0 ± 4.0 -1.0 72-hem/kin (×) _________

______________________________________

_____________________________________

Nitrogen Trichloroethene

_________

[7727-37-9] [79-01-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.15 -66.2 ± 6.6 94-kha/new 303.15 -24.8 ± 2.5 94-kha/new ___________

______________________________________________

Nitrogen (E)-1,2-Dichloroethene

[7727-37-9] [156-60-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.15 -27.6 ± 6.0 94-kha/new 303.15 152.6 ± 16.0 94-kha/new ___________

______________________________________________

Nitrogen 1,1,2,2-Tetrachloroethane

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 313.15 323.15 ___________

[7727-37-9] [79-34-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 293.15 -157.0 ± 12.0 87-bar/new 308.15 -132.0 ± 10.0 87-bar/new ___________

T K 313.15 323.15 ___________

T K 323.15 ___________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -75.5 ± 17.0 1.3 -72.0 ± 2.0 0.8 -69.5 ± 17.0 -0.7 -67.0 ± 3.0 -0.3 -64.0 ± 2.0 -1.1 -60.0 ± 17.0 2.8 -53.0 ± 17.0 5.5 ______________________________________

N2 C2HCl3

_____________________________________

Ref. (Symbol in Fig. 1) 77-neo/kud (…) 72-hem/kin (×) 77-neo/kud (…) 72-hem/kin (×) 72-hem/kin (×) 77-neo/kud (…) 77-neo/kud (…)

MW = 28.01 MW = 131.39

B12 ± δB12 cm3· mol-1 -10.1 ± 1.0 102.6 ± 10.0

388

Ref.

______________________________________________

N2 C2H2Cl2

94-kha/new 94-kha/new

MW = 28.01 MW = 96.94

B12 ± δB12 cm3· mol-1 169.3 ± 18.0 177.5 ± 18.0

389

Ref.

_____________________________________________

N2 C2H2Cl4

94-kha/new 94-kha/new

MW = 28.01 MW = 167.85

B12 ± δB12 cm3· mol-1 -60.0 ± 6.0

390

Ref.

______________________________________________

87-bar/new

214

2 Mixtures Containing an Inorganic Compound

Nitrogen 1,1,1-Trichloroethane

[7727-37-9] [71-55-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 293.15 -172.0 ± 12.0 87-bar/new 308.15 -104.0 ± 9.0 87-bar/new ___________

______________________________________________

Nitrogen 1,1,2-Trichloroethane

[7727-37-9] [79-00-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.15 -136.0 ± 11.0 87-bar/new ___________

______________________________________________

Nitrogen Ethene

______________________________________________

Nitrogen 1,1-Dichloroethane

______________________________________________

Nitrogen 1,2-Dichloroethane

______________________________________________

T K 323.15 ___________

[7727-37-9] [107-06-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 293.15 -135.0 ± 10.0 87-bar/new 308.15 -103.0 ± 9.0 87-bar/new ___________

T K 298.20 ___________

[7727-37-9] [75-34-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.15 -91.0 ± 7.0 87-bar/new 308.15 -65.0 ± 6.0 87-bar/new ___________

T K 323.15 ___________

[7727-37-9] [74-85-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.15 -51.3 ± 3.4 91-lop/roz ___________

T K 323.15 ___________

T K 323.15 ___________

N2 C2H3Cl3

MW = 28.01 MW = 133.40

B12 ± δB12 cm3· mol-1 -86.0 ± 8.0

391

Ref.

_____________________________________________

N2 C2H3Cl3

87-bar/new

MW = 28.01 MW = 133.40

B12 ± δB12 cm3· mol-1 -51.0 ± 6.0

392

Ref.

______________________________________________

N2 C2H4

87-bar/new

MW = 28.01 MW = 28.05

B12 ± δB12 cm3· mol-1 -54.7 ± 3.0

393

Ref.

______________________________________________

N2 C2H4Cl2

42-edw/ros

MW = 28.01 MW = 98.96

B12 ± δB12 cm3· mol-1 -51.0 ± 5.0

394

Ref.

______________________________________________

N2 C2H4Cl2

87-bar/new

MW = 28.01 MW = 98.96

B12 ± δB12 cm3· mol-1 -87.0 ± 8.0

395

Ref.

______________________________________________

87-bar/new

Landolt-Börnstein New Series IV/21B

215

2 Mixtures Containing an Inorganic Compound

Nitrogen Nitroethane

[7727-37-9] [79-24-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -71 ± 10 71-vig/sem ___________

______________________________________________

Nitrogen Ethane

______________________________________________

Table 3. Experimental Bm values with uncertainty. x2 Ref. T Bm ± δBm K cm3· mol-1 270.00 0.250 -42.3 ± 0.3 91-ach/mag 270.00 0.500 -88.9 ± 0.4 91-ach/mag 270.00 0.752 -150.8 ± 0.8 91-ach/mag 290.00 0.250 -34.0 ± 0.3 91-ach/mag 290.00 0.500 -74.9 ± 0.4 91-ach/mag 290.00 0.752 -129.5 ± 0.8 91-ach/mag 310.00 0.250 -27.4 ± 0.3 91-ach/mag 310.00 0.500 -63.7 ± 0.4 91-ach/mag ___________

__________________________________________

Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 223.10 0.235 38.0 ± 3.0 89-did/zhd-1 248.10 0.841 62.0 ± 1.2 89-did/zhd-1 248.10 0.678 47.0 ± 5.4 89-did/zhd-1 248.10 0.493 27.5 ± 1.4 89-did/zhd-1 248.10 0.235 17.8 ± 0.9 89-did/zhd-1 270.00 0.250 2.5 ± 0.2 91-ach/mag 270.00 0.500 4.6 ± 0.4 91-ach/mag 270.00 0.752 7.4 ± 0.6 91-ach/mag 273.10 0.493 19.7 ± 0.9 89-did/zhd-1 273.10 0.235 11.6 ± 0.6 89-did/zhd-1 290.00 0.250 2.4 ± 0.2 91-ach/mag 290.00 0.500 4.4 ± 0.4 91-ach/mag 290.00 0.752 7.2 ± 0.6 91-ach/mag ___________

Landolt-Börnstein New Series IV/21B

___________________________________________________________

T K 310.00 313.15 330.00 333.15 350.00 ___________

T K 310.00 330.00 330.00 330.00 350.00 350.00 350.00 ___________

T K 298.10 298.10 298.10 310.00 310.00 310.00 330.00 330.00 330.00 348.10 348.10 348.10 348.10 ___________

MW = 28.01 MW = 75.07

B12 ± δB12 cm3· mol-1

T K

___________

[7727-37-9] [74-84-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 270.00 -58.3 ± 1.5 91-ach/mag 273.15 -55.6 ± 2.0 88-jae/aud 288.70 -58.1 ± 5.0 61-mas/eak 290.00 -48.3 ± 1.5 91-ach/mag 293.15 -46.8 ± 2.0 88-jae/aud 293.15 -46.6 ± 2.8 91-lop/roz ___________

N2 C2H5NO2

396

Ref.

______________________________________________

N2 C2H6

MW = 28.01 MW = 30.07

B12 ± δB12 cm3· mol-1 -40.5 ± 1.5 -38.9 ± 2.0 -33.3 ± 1.5 -31.9 ± 2.0 -27.1 ± 1.5

397

Ref.

--___________________________________________

x2

91-ach/mag 88-jae/aud 91-ach/mag 88-jae/aud 91-ach/mag

Bm ± δBm cm3· mol-1 -111.9 ± 0.8 -21.5 ± 0.3 -54.0 ± 0.4 -96.9 ± 0.8 -16.6 ± 0.3 -45.4 ± 0.4 -84.3 ± 0.8

Ref.

__________________________________________

0.752 0.250 0.500 0.752 0.250 0.500 0.752

x2

Cm ± δCm 10 · cm6· mol-2 19.0 ± 1.0 15.6 ± 0.9 9.3 ± 0.8 2.4 ± 0.2 4.1 ± 0.4 6.8 ± 0.6 2.3 ± 0.2 3.9 ± 0.4 6.2 ± 0.6 -0.2 ± 0.4 2.1 ± 0.4 4.0 ± 0.1 1.8 ± 0.0

91-ach/mag 91-ach/mag 91-ach/mag 91-ach/mag 91-ach/mag 91-ach/mag 91-ach/mag

Ref.

__________________________________________________________

3

0.678 0.493 0.235 0.250 0.500 0.752 0.250 0.500 0.752 0.841 0.678 0.493 0.235

89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 91-ach/mag 91-ach/mag 91-ach/mag 91-ach/mag 91-ach/mag 91-ach/mag 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 89-did/zhd-1 cont.

216

2 Mixtures Containing an Inorganic Compound

Nitrogen + Ethane (cont.) Table 5. (cont.) T x2 K 350.00 0.250 350.00 0.500 ___________

Cm ± δCm 103· cm6· mol-2 2.3 ± 0.2 3.6 ± 0.4

Ref.

T K 350.00 ___________

___________________________________________________________

91-ach/mag 91-ach/mag

x2

Cm ± δCm 103· cm6· mol-2 5.8 ± 0.6

0.752

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 270.00 2.2 ± 0.3 91-ach/mag 273.15 2.2 ± 0.3 88-jae/aud 290.00 2.1 ± 0.3 91-ach/mag 293.15 2.3 ± 0.3 88-jae/aud 310.00 2.1 ± 0.3 91-ach/mag

T K 313.15 330.00 333.15 350.00

C112 ± δC112 103· cm6· mol-2 2.3 ± 0.3 2.1 ± 0.3 2.1 ± 0.3 2.0 ± 0.3

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 270.00 5.7 ± 0.7 91-ach/mag 273.15 5.2 ± 0.2 88-jae/aud 290.00 5.5 ± 0.7 91-ach/mag 293.15 5.4 ± 0.2 88-jae/aud 310.00 5.2 ± 0.7 91-ach/mag

T K 313.15 330.00 333.15 350.00

C122 ± δC122 103· cm6· mol-2 5.2 ± 0.2 4.9 ± 0.7 4.6 ± 0.2 4.7 ± 0.7

___________

___________

__________________________________________________________

__________________________________________________________

Nitrogen Ethanol

______________________________________________

Nitrogen Propene

T K 333.20 353.20 ___________

[7727-37-9] [115-07-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 293.15 -79.8 ± 4.2 91-lop/roz ___________

___________

[7727-37-9] [64-17-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 303.20 -94.0 ± 17.0 71-vig/sem 313.20 -64.5 ± 17.0 71-vig/sem 318.20 -83.5 ± 17.0 71-vig/sem ___________

___________

______________________________________________

T K

___________

Ref.

__________________________________________________________

91-ach/mag

Ref.

__________________________________________________________

88-jae/aud 91-ach/mag 88-jae/aud 91-ach/mag

Ref.

__________________________________________________________

N2 C2H6O

88-jae/aud 91-ach/mag 88-jae/aud 91-ach/mag

MW = 28.01 MW = 46.07

B12 ± δB12 cm3· mol-1 -70.0 ± 17.0 -10.0 ± 10.0

398

Ref.

______________________________________________

N2 C3H6

71-vig/sem 71-vig/sem

MW = 28.01 MW = 42.08

B12 ± δB12 cm3· mol-1

399

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

217

2 Mixtures Containing an Inorganic Compound

Nitrogen Propanone

[7727-37-9] [67-64-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 223.05 -199.0 ± 12.0 81-hic/pra 233.15 -174.0 ± 19.0 81-hic/pra 251.80 -133.0 ± 15.0 93-sch/lan 258.15 -119.0 ± 7.0 81-hic/pra ___________

______________________________________________

Nitrogen Propane

N2 C3H6O

B12 ± δB12 cm3· mol-1 -105.0 ± 15.0 -90.0 ± 15.0 -85.0 ± 7.0 -58.0 ± 7.0

T K 261.80 273.00 283.15 308.15 ___________

[7727-37-9] [74-98-6]

MW = 28.01 MW = 58.08

400

Ref.

______________________________________________

N2 C3H8

93-sch/lan 93-sch/lan 81-hic/pra 81-hic/pra

MW = 28.01 MW = 44.10

401

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 4.3087 ⋅ 102 − 4.0130 ⋅ 105/(T/K) + 1.2091 ⋅ 108/(T/K)2 − 1.3638 ⋅ 1010/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -112.6 ± 10 -68.4 ± 5

T/K 250 300

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -46.7 ± 6 -29.8 ± 6

T/K

(B12 ± 2σest)/cm3· mol-1

12 10 8 (B 12 - B 12calc)/cm3·mol-1

6 4 2 0 -2 -4 -6 -8 -10 -12 -14 225

250

275

300

325

350

375

400

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

218

2 Mixtures Containing an Inorganic Compound

Nitrogen + Propane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 241.20 -126.0 ± 10.0 0.5 96-wor/hut (z) 253.60 -109.0 ± 6.0 -1.3 96-wor/hut (z) 262.90 -100.0 ± 6.0 -3.3 96-wor/hut (z) 273.15 -82.3 ± 4.0 4.6 88-jae/aud („) 273.50 -87.0 ± 7.0 -0.4 96-wor/hut (z) 283.20 -81.0 ± 7.0 -2.0 96-wor/hut (z) 288.70 -82.6 ± 5.0 -7.3 61-mas/eak (×) 293.15 -68.9 ± 4.0 3.5 88-jae/aud („) 293.15 -72.2 ± 3.8 0.2 91-lop/roz (♦) _________

_----_____________________________________

_____________________________________

T K 293.20 303.40 313.15 323.10 333.15 343.20 363.20 383.20 393.40 _________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 248.20 0.500 212.6 ± 0.2 67-bre 273.20 0.500 167.8 ± 0.2 67-bre

T K 298.20

Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 273.10 0.771 24.0 ± 7.0 89-did/zhd-1 298.10 0.451 92.0 ± 13.0 89-did/zhd-1 298.10 0.647 60.0 ± 6.0 89-did/zhd-1 298.10 0.771 33.0 ± 3.0 89-did/zhd-1

T K 348.10 348.10 348.10

___________

___________

________________________________________

__________________________________________________________

___________

___________

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -73.0 ± 5.0 -0.6 96-wor/hut (z) -67.0 ± 4.0 -0.4 96-wor/hut (z) -57.2 ± 4.0 4.6 88-jae/aud (z) -64.0 ± 3.0 -6.7 96-wor/hut (z) -47.2 ± 4.0 5.9 88-jae/aud („) -49.0 ± 6.0 0.3 96-wor/hut (z) -37.0 ± 6.0 5.1 96-wor/hut (z) -37.0 ± 6.0 -1.7 96-wor/hut (z) -33.0 ± 5.0 -1.0 96-wor/hut (z) ___________________________----___________

x1

_____________________________________

BE ± δBE cm3· mol-1 137.6 ± 0.2

0.500

x1

Cm ± δCm 10 · cm6· mol-2 29.0 ± 10.0 18.0 ± 0.6 81.0 ± 0.5

0.451 0.647 0.771

C112 ± δC112 103· cm6· mol-2 3.3 ± 0.4 2.9 ± 0.4

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 273.15 7.0 ± 1.4 88-jae/aud 293.15 8.6 ± 1.4 88-jae/aud

T K 313.15 333.15

C122 ± δC122 103· cm6· mol-2 9.6 ± 1.4 9.8 ± 1.4

___________

__________________________________________________________

___________

___________

Ref.

3

T K 313.15 333.15

__________________________________________________________

67-bre

___________________________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 273.15 4.0 ± 0.4 88-jae/aud 293.15 3.7 ± 0.4 88-jae/aud ___________

Ref.

________________________________________

89-did/zhd-1 89-did/zhd-1 89-did/zhd-1

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

Landolt-Börnstein New Series IV/21B

219

2 Mixtures Containing an Inorganic Compound

Nitrogen 1-Propanol

[7727-37-9] [71-23-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 303.20 -110.0 ± 17.0 77-neo/kud 318.20 -98.5 ± 17.0 77-neo/kud ___________

______________________________________________

Nitrogen Butanone

______________________________________________

Nitrogen 1,4-Dioxane

______________________________________________

Nitrogen Butane

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 273.15 -110 ± 4 88-jae/aud 283.40 -108 ± 11 96-wor/hut 288.70 -87 ± 5 61-mas/eak 293.15 -98 ± 4 88-jae/aud 293.20 -94 ± 8 96-wor/hut 303.15 -78 ± 15 68-hic/you 303.20 -88 ± 8 96-wor/hut 308.20 -84 ± 9 68-cru/gai 313.15 -82 ± 4 88-jae/aud ___________

______________________________________________

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 3 6 -2 K 10 · cm · mol 273.15 5.7 ± 0.6 88-jae/aud 293.15 6.4 ± 0.6 88-jae/aud ___________

Landolt-Börnstein New Series IV/21B

_________________________________________________________

B12 ± δB12 cm3· mol-1 -84.5 ± 17.0 -80.5 ± 17.0

T K 313.15 333.15 ___________

403

Ref.

MW = 28.01 MW = 88.11

B12 ± δB12 cm3· mol-1

T K

___________

T K 323.15 323.20 333.15 333.20 343.50 363.30 383.15 393.20

77-neo/kud 77-neo/kud

_______---_______________________________________

N2 C4H8O2

___________

402

Ref.

MW = 28.01 MW = 72.11

B12 ± δB12 cm3· mol-1

T K

___________

[7727-37-9] [106-97-8]

MW = 28.01 MW = 60.10

__________-----_________________________________

N2 C4H8O

[7727-37-9] [123-91-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -67 ± 10 71-vig/sem ___________

T K 333.20 343.20 ___________

[7727-37-9] [78-93-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -36 ± 10 71-vig/sem ___________

N2 C3H8O

404

Ref.

______________________________________________

N2 C4H10

MW = 28.01 MW = 58.12

B12 ± δB12 cm3· mol-1 -69 ± 15 -70 ± 7 -63 ± 3 -77 ± 12 -64 ± 6 -53 ± 7 -42 ± 7 -40 ± 6

405

Ref.

______________________________________________

C112 ± δC112 103· cm6· mol-2 6.2 ± 0.6 4.9 ± 0.6

68-hic/you 96-wor/hut 88-jae/aud 68-you 96-wor/hut 96-wor/hut 96-wor/hut 96-wor/hut

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

220

2 Mixtures Containing an Inorganic Compound

Nitrogen 1-Butanol

[7727-37-9] [71-36-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -72.0 ± 10.0 73-mas/kin 303.20 -124.0 ± 17.0 77-neo/kud 318.20 -110.5 ± 17.0 77-neo/kud ___________

______________________________________________

Nitrogen Diethyl ether

_____________________________________________

Nitrogen Pyridine

______________________________________________

Nitrogen (Z)-1,3-Pentadiene

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -105 ± 20 74-let/mar-1 ___________

______________________________________________

Nitrogen Cyclopentane

___________

______________________________________________

Ref.

MW = 28.01 MW = 68.12 B12 ± δB12 cm3· mol-1

409

Ref.

______________________________________________

N2 C5H10 T K

408

______________________________________________

N2 C5H8

___________

407

Ref.

MW = 28.01 MW = 79.10

B12 ± δB12 cm3· mol-1

T K

___________

T K

77-neo/kud 77-neo/kud

______________________________________________

N2 C5H5N

___________

406

Ref.

MW = 28.01 MW = 74.12

B12 ± δB12 cm3· mol-1

T K

[7727-37-9] [287-92-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 298.20 -91 ± 20 62-des/gol

B12 ± δB12 cm3· mol-1 -97.5 ± 17.0 -89.5 ± 17.0

___________

[7727-37-9] [1574-41-0]

MW = 28.01 MW = 74.12

_____________________________________________

N2 C4H10O

[7727-37-9] [110-86-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -42 ± 10 71-vig/sem ___________

T K 333.20 343.20 ___________

[7727-37-9] [60-29-7]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 298.15 -67.0 ± 9.0 73-mas/kin ___________

N2 C4H10O

MW = 28.01 MW = 70.13

B12 ± δB12 cm3· mol-1

410

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

221

2 Mixtures Containing an Inorganic Compound

Nitrogen 1-Pentene

[7727-37-9] [109-67-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -64 ± 9 68-cru/gai ___________

______________________________________________

Nitrogen (E)-2-Pentene

_______---_______________________________________

Nitrogen Pentane

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -77.0 ± 7.0 73-mas/kin 298.15 -90.0 ± 10.0 74-leu/eic 298.20 -105.0 ± 25.0 62-des/gol 298.20 -103.0 ± 6.0 66-cru/win 303.15 -85.0 ± 15.0 68-hic/you 308.15 -85.0 ± 13.0 68-cru/gai 308.15 -119.0 ± 20.0 74-let/mar-1 308.15 -76.0 ± 20.0 74-let/mar-1 313.20 -86.0 ± 6.0 70-gai/pec 328.20 -66.0 ± 15.0 68-you ___________

______________________________________________

Nitrogen 2-Methylbutane

[7727-37-9] [78-78-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -105 ± 25 62-des/gol 313.20 -92 ± 6 70-gai/pec 328.20 -64 ± 15 68-you ___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 333.15 333.15 333.20 338.20 343.15 353.15 353.20 363.15 373.15

T K 333.20 338.20 ___________

Ref.

MW = 28.01 MW = 70.13 B12 ± δB12 cm3· mol-1

T K

___________

___________

411

______________________________________________

N2 C5H10

[7727-37-9] [109-66-0]

MW = 28.01 MW = 70.13 B12 ± δB12 cm3· mol-1

T K

___________

[7727-37-9] [646-04-8]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 308.15 -95 ± 20 74-let/mar-1 ___________

N2 C5H10

412

Ref.

______________________________________________

N2 C5H12

MW = 28.01 MW = 72.15

B12 ± δB12 cm3· mol-1 -80.0 ± 15.0 -75.5 ± 8.8 -72.0 ± 10.0 -78.0 ± 15.0 -71.6 ± 8.6 -65.1 ± 8.2 -60.0 ± 10.0 -60.6 ± 8.0 -56.6 ± 7.8

413

Ref.

______________________________________________

N2 C5H12

68-hic/you 83-hou/wan 68-you 68-you 83-hou/wan 83-hou/wan 71-vig/sem 83-hou/wan 83-hou/wan

MW = 28.01 MW = 72.15

B12 ± δB12 cm3· mol-1 -76 ± 10 -81 ± 15

Ref.

______________________________________________

68-you 68-you

414

222

2 Mixtures Containing an Inorganic Compound

Nitrogen 2,2-Dimethylpropane

[7727-37-9] [463-82-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 199.62 -236 ± 24 75-bau/wes 199.62 -265 ± 27 75-bau/wes 199.62 -241 ± 24 75-bau/wes 209.59 -210 ± 21 75-bau/wes 209.59 -226 ± 23 75-bau/wes 209.59 -203 ± 20 75-bau/wes 219.56 -185 ± 19 75-bau/wes 219.56 -192 ± 19 75-bau/wes 219.56 -180 ± 18 75-bau/wes 229.53 -170 ± 17 75-bau/wes 229.53 -174 ± 17 75-bau/wes ___________

______________________________________________

Nitrogen Hexafluorobenzene

______________________________________________

Nitrogen Chlorobenzene

______________________________________________

Nitrogen Benzene

B12 ± δB12 cm3· mol-1 -162 ± 16 -146 ± 15 -155 ± 15 -153 ± 15 -126 ± 13 -137 ± 14 -130 ± 13 -106 ± 11 -114 ± 11 -101 ± 10

[7727-37-9] [71-43-2]

Ref. 75-bau/wes 75-bau/wes 75-bau/wes 75-bau/wes 75-bau/wes 75-bau/wes 75-bau/wes 75-bau/wes 75-bau/wes 75-bau/wes

B12 ± δB12 cm3· mol-1

T K

T K 313.15 323.15

415

MW = 28.01 MW = 186.06

___________

___________

MW = 28.01 MW = 72.15

______________________________________________

N2 C6F6

[7727-37-9] [108-90-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.15 202.6 ± 30.0 94-kha/new 303.15 175.4 ± 20.0 94-kha/new ___________

T K 229.53 239.48 239.48 239.48 249.47 249.47 249.47 257.86 257.86 257.86 ___________

[7727-37-9] [392-56-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 313.20 -126 ± 6 74-leu/eic ___________

N2 C5H12

416

Ref.

______________________________________________

N2 C6H5Cl

MW = 28.01 MW = 112.56

B12 ± δB12 cm3· mol-1 142.1 ± 18.0 -15.6 ± 5.0

417

Ref.

______________________________________________

N2 C6H6

94-kha/new 94-kha/new

MW = 28.01 MW = 78.11

418

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.3070 ⋅ 102 − 7.2389 ⋅ 104/(T/K) T/K (B12 ± 2σest)/cm3· mol-1 290 -118.9 ± 15 300 -110.6 ± 12

T/K (B12 ± 2σest)/cm3· mol-1 350 -76.1 ± 10 400 -50.3 ± 5

T/K 450

(B12 ± 2σest)/cm3· mol-1 -30.2 ± 5

cont. Landolt-Börnstein New Series IV/21B

223

2 Mixtures Containing an Inorganic Compound

Nitrogen + Benzene (cont.) 40

(B 12 - B 12calc)/cm3.mol-1

30 20 10 0 -10 -20 -30 -40 -50 275

300

325

350

375

400

425

450

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 293.15 -120 ± 12 -3.8 68-gai/you-1 (z) 293.15 -118.9 ± 12 -2.7 94-kha/new (◊) 298.15 -109 ± 10 3.1 68-gai/you-1 (z) 298.15 -126 ± 15 -13.9 74-leu/eic (■) 298.20 -117 ± 30 -4.9 62-des/gol (◊) 303.15 -107 ± 10 1.1 68-gai/you-1 (z) 303.15 -128 ± 12 -19.9 73-kau/kud ({) 303.15 14.2 ± 2 122.3 94-kha/new1 303.20 -121 ± 6 -13.0 66-cru/win (▲) 308.15 -104 ± 9 0.2 68-cru/gai (□) 308.15 -104 ± 10 0.2 68-gai/you-1 (z) 308.20 -97 ± 3 7.2 69-coa/kin (‹) 313.15 -112 ± 12 -11.5 73-kau/kud ({) 313.15 77 ± 8 177.5 94-kha/new1 313.20 -108 ± 6 -7.6 66-cru/win (▲) 323.15 -87 ± 8 6.3 68-eve/gai (Δ) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 323.15 323.15 323.15 323.20 323.20 328.15 333.15 333.15 333.15 333.20 338.15 338.15 338.40 340.65 343.15 343.15 _________

Bexp ± δB cm3· mol-1 -94 ± 10 -92 ± 12 114 ± 11 -98 ± 9 -85 ± 3 -86 ± 10 -93 ± 10 -89 ± 10 -83 ± 12 -70 ± 20 -92 ± 40 -79 ± 10 -79 ± 20 -86 ± 10 -74 ± 10 -77 ± 12

______________________________________

Bexp - Bcalc Ref. (Symbol cm3· mol-1 in Fig. 1) -0.7 68-gai/you-1(z) 1.3 73-kau/kud ({) 207.3 94-kha/new1 -4.7 68-cru/gai (□) 8.3 69-coa/kin (‹) 3.9 68-gai/you-1(z) -6.4 68-gai/you-1(z) -2.4 68-gai/you-1(z) 3.6 73-kau/kud ({) 16.6 96-wor/lew (×) -8.6 68-gai/you-1(z) 4.4 68-gai/you-1(z) 4.2 96-wor/lew (×) -4.2 68-gai/you-1(z) 6.3 68-gai/you-1(z) 3.3 73-kau/kud ({)

_____________________________________

cont.

Landolt-Börnstein New Series IV/21B

224

2 Mixtures Containing an Inorganic Compound

Nitrogen + Benzene (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 343.20 -80 ± 20 0.2 348.15 -70 ± 10 7.2 348.15 -79 ± 10 -1.8 348.20 -83 ± 15 -5.8 353.20 -74 ± 10 0.3 353.20 -80 ± 10 -5.7 358.20 -75 ± 10 -3.6 363.20 -67 ± 10 1.6 _________

______________________________________

_____________________________________

Nitrogen (Z)-1,3,5-Hexatriene

Ref. (Symbol in Fig. 1) 96-wor/lew (×) 68-gai/you-1 (z) 68-gai/you-1 (z) 96-wor/lew (×) 71-vig/sem (■) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×)

[7727-37-9] [2612-46-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -122 ± 20 74-let/mar-1 308.15 -132 ± 20 74-let/mar-1 308.15 -119 ± 20 74-let/mar-1 ___________

______________________________________________

Nitrogen (E)-1,3-Hexadiene

______________________________________________

Nitrogen (E)-1,4-Hexadiene

______________________________________________

T K 308.15 323.15 323.15 ___________

[7727-37-9] [7319-00-8]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 308.15 -114 ± 20 74-let/mar-1 ___________

T K 308.15 323.15 323.15 ___________

[7727-37-9] [20237-34-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -100 ± 20 74-let/mar-1 308.15 -122 ± 20 74-let/mar-1 308.15 -114 ± 20 74-let/mar-1 ___________

T K 368.20 373.20 383.20 393.20 403.20 413.20 423.20 433.20 _________

T K 308.15 ___________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -60 ± 10 5.9 -67 ± 5 -3.7 -59 ± 5 -0.8 -45 ± 5 8.4 -50 ± 5 -1.2 -42 ± 5 2.5 -40 ± 5 0.4 -32 ± 5 4.4

______________________________________

N2 C6H8

_____________________________________

Ref. (Symbol in Fig. 1) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×)

MW = 28.01 MW = 80.13

B12 ± δB12 cm3· mol-1 -148 ± 20 -105 ± 20 -113 ± 20

419

Ref.

______________________________________________

N2 C6H10

74-let/mar-1 74-let/mar-1 74-let/mar-1

MW = 28.01 MW = 82.15

B12 ± δB12 cm3· mol-1 -114 ± 20 -96 ± 20 -109 ± 20

420

Ref.

______________________________________________

N2 C6H10

74-let/mar-1 74-let/mar-1 74-let/mar-1

MW = 28.01 MW = 82.15

B12 ± δB12 cm3· mol-1 -95 ± 20

421

Ref.

______________________________________________

74-let/mar-1

Landolt-Börnstein New Series IV/21B

225

2 Mixtures Containing an Inorganic Compound

Nitrogen 1,5-Hexadiene

[7727-37-9] [592-42-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -107 ± 20 74-let/mar-1 323.15 -91 ± 20 74-let/mar-1 ___________

______________________________________________

Nitrogen (E,E)-2,4-Hexadiene

___________

______________________________________________

Nitrogen Cyclohexane

T K 308.15 308.15 ___________

[7727-37-9] [110-82-7]

MW = 28.01 MW = 82.15

B12 ± δB12 cm3· mol-1 -98 ± 20

T K 323.15 ___________

[7727-37-9] [5194-51-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -134 ± 20 74-let/mar-1 308.15 -113 ± 20 74-let/mar-1

N2 C6H10

422

Ref.

______________________________________________

N2 C6H10

74-let/mar-1

MW = 28.01 MW = 82.15

B12 ± δB12 cm3· mol-1 -118 ± 20 -142 ± 20

423

Ref.

______________________________________________

N2 C6H12

74-let/mar-1 74-let/mar-1

MW = 28.01 MW = 84.16

424

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = -2.5418 ⋅ 102 + 2.1825 ⋅ 105/(T/K) – 5.4381 ⋅ 107/(T/K)2 T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -130.9 ± 20 -74.5 ± 20

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -48.4 ± 10 -37.7 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.15 -130.0 ± 15.0 3.9 74-leu/eic (Δ) 298.20 -120.0 ± 30.0 13.8 62-des/gol (○) 303.15 -142.0 ± 12.0 -16.0 73-kau/kud (●) 308.15 -122.0 ± 13.0 -3.4 68-cru/gai (▲) 313.15 -98.0 ± 12.0 13.8 73-kau/kud (●) 313.20 -1.2 ± 6.0 110.5 74-leu/eic1 323.15 -110.0 ± 12.0 -10.4 73-kau/kud (●) 333.15 -100.0 ± 12.0 -11.0 73-kau/kud (●) 333.20 -80.0 ± 10.0 9.0 68-you (□) 333.20 -70.0 ± 20.0 19.0 96-wor/lew (×) 338.40 -68.0 ± 20.0 16.1 96-wor/lew (×) 343.20 -77.0 ± 20.0 2.9 96-wor/lew (×) 348.20 -86.0 ± 15.0 -10.1 96-wor/lew (×) 1 Not included in Figure 1. _________

____________________-----__________________

_____________________________________

T K 353.20 353.20 358.20 363.20 368.20 373.20 383.20 393.20 403.20 413.20 423.20 433.20 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -63.0 ± 10 9.2 -77.0 ± 10 -4.8 -61.0 ± 10 7.7 -75.0 ± 10 -9.5 -64.0 ± 10 -1.4 -64.0 ± 10 -4.2 -55.0 ± 5 0.0 -50.0 ± 5 0.9 -48.0 ± 5 -0.6 -49.0 ± 5 -4.5 -45.0 ± 5 -2.9 -35.0 ± 5 5.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 71-vig/sem (■) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×) 96-wor/lew (×)

cont. Landolt-Börnstein New Series IV/21B

226

2 Mixtures Containing an Inorganic Compound

Nitrogen + Cyclohexane (cont.)

50 (B 12 - B 12calc)/cm3.mol-1

40 30 20 10 0 -10 -20 -30 -40 275

300

325

350

375

400

425

450

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Nitrogen Methylcyclopentane

[7727-37-9] [96-37-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -128 ± 30 62-des/gol ___________

______________________________________________

Nitrogen 1-Hexene

______________________________________________

T K 323.15 ___________

MW = 28.01 MW = 84.16 B12 ± δB12 cm3· mol-1

T K

___________

[7727-37-9] [592-41-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -110 ± 9 68-cru/gai 308.15 -122 ± 20 74-let/mar-1 ___________

N2 C6H12

425

Ref.

______________________________________________

N2 C6H12

MW = 28.01 MW = 84.16

B12 ± δB12 cm3· mol-1 -99 ± 20

426

Ref.

______________________________________________

74-let/mar-1

Landolt-Börnstein New Series IV/21B

227

2 Mixtures Containing an Inorganic Compound

Nitrogen (E)-2-Hexene

[7727-37-9] [4050-45-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -127 ± 20 74-let/mar-1 ___________

______________________________________________

Nitrogen (E)-3-Hexene

______________________________________________

Nitrogen Butyl ethanoate

______________________________________________

Nitrogen Hexane

Landolt-Börnstein New Series IV/21B

T K

___________

______________________________________________

T K 323.15 323.15 323.20 328.20 333.15 333.15 333.20 338.20 343.15 353.15 353.20 363.15 373.15 ___________

MW = 28.01 MW = 84.16

B12 ± δB12 cm3· mol-1 -105 ± 20

427

Ref.

______________________________________________

N2 C6H12

74-let/mar-1

MW = 28.01 MW = 84.16

B12 ± δB12 cm3· mol-1 -120 ± 20 -121 ± 20

428

Ref.

______________________________________________

N2 C6H12O2

[7727-37-9] [110-54-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 298.15 -118.0 ± 10.0 74-leu/eic 298.20 -128.0 ± 30.0 62-des/gol 298.20 -112.0 ± 6.0 66-cru/win 303.15 -108.0 ± 20.0 68-hic/you 303.15 -132.0 ± 12.0 73-kau/kud 303.20 -103.0 ± 6.0 66-cru/win 308.15 -113.0 ± 9.0 68-cru/gai 308.15 -115.0 ± 20.0 74-let/mar-1 308.15 -103.0 ± 20.0 74-let/mar-1 308.15 -121.0 ± 20.0 74-let/mar-1 313.15 -107.0 ± 15.0 68-hic/you 313.15 -103.0 ± 12.0 73-kau/kud 313.20 -110.0 ± 6.0 74-leu/eic 323.15 -57.0 ± 12.0 73-kau/kud ___________

T K 308.15 308.15 ___________

[7727-37-9] [123-86-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.20 -79 ± 10 71-vig/sem ___________

T K 308.15 ___________

[7727-37-9] [13269-52-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -108 ± 20 74-let/mar-1 308.15 -108 ± 20 74-let/mar-1 ___________

N2 C6H12

74-let/mar-1 74-let/mar-1

MW = 28.01 MW = 116.16

B12 ± δB12 cm3· mol-1

429

Ref.

______________________________________________

N2 C6H14

MW = 28.01 MW = 86.18

B12 ± δB12 cm3· mol-1 -96.0 ± 20.0 -95.0 ± 20.0 -79.0 ± 6.0 -90.0 ± 15.0 -93.0 ± 15.0 -94.0 ± 9.7 -98.0 ± 10.0 -104.0 ± 15.0 -87.1 ± 9.3 -80.9 ± 9.0 -69.0 ± 10.0 -75.4 ± 8.8 -70.4 ± 8.5

430

Ref.

______________________________________________

74-let/mar-1 74-let/mar-1 66-cru/win 68-you 68-hic/you 83-hou/wan 68-you 68-you 83-hou/wan 83-hou/wan 71-vig/sem 83-hou/wan 83-hou/wan

228

2 Mixtures Containing an Inorganic Compound

Nitrogen 2-Methylpentane

[7727-37-9] [107-83-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -127 ± 30 62-des/gol 308.15 -91 ± 9 68-cru/gai ___________

______________________________________________

Nitrogen 3-Methylpentane

[7727-37-9] [96-14-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -117 ± 30 62-des/gol ___________

______________________________________________

Nitrogen 2,2-Dimethylbutane

______________________________________________

Nitrogen 2,3-Dimethylbutane

______________________________________________

Nitrogen Diisopropyl ether

______________________________________________

T K 313.20 ___________

[7727-37-9] [108-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 223.15 -248 ± 22 81-hic/pra 248.15 -195 ± 16 81-hic/pra ___________

T K 313.20 ___________

[7727-37-9] [79-29-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -112 ± 30 62-des/gol ___________

T K 313.20 ___________

[7727-37-9] [75-83-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -105 ± 25 62-des/gol 308.15 -60 ± 20 68-cru/gai ___________

T K 313.20 ___________

T K 273.15 323.15 ___________

N2 C6H14

MW = 28.01 MW = 86.18

B12 ± δB12 cm3· mol-1 -106 ± 6

431

Ref.

______________________________________________

N2 C6H14

74-leu/eic

MW = 28.01 MW = 86.18

B12 ± δB12 cm3· mol-1 -96 ± 6

432

Ref.

______________________________________________

N2 C6H14

74-leu/eic

MW = 28.01 MW = 86.18

B12 ± δB12 cm3· mol-1 -83 ± 6

433

Ref.

______________________________________________

N2 C6H14

74-leu/eic

MW = 28.01 MW = 86.18

B12 ± δB12 cm3· mol-1 -99 ± 6

434

Ref.

______________________________________________

N2 C6H14O

74-leu/eic

MW = 28.01 MW = 102.18

B12 ± δB12 cm3· mol-1 -149 ± 22 -38 ± 22

435

Ref.

______________________________________________

81-hic/pra 81-hic/pra

Landolt-Börnstein New Series IV/21B

229

2 Mixtures Containing an Inorganic Compound

Nitrogen Toluene

[7727-37-9] [108-88-3]

N2 C7H8

MW = 28.01 MW = 92.14

436

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 1.7879 ⋅ 102 + 1.2731 ⋅ 105/(T/K) − 3.3317 ⋅ 107/(T/K)2 (B12 ± 2σest)/cm3· mol-1 -226.8 ± 20 -202.7 ± 10

T/K 240 250

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -124.7 ± 10 -87.1 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 241.20 -209 ± 20 14.6 93-sch/lan (♦) 261.70 -184 ± 10 -5.2 93-sch/lan (♦) 282.60 -152 ± 10 -6.5 93-sch/lan (♦) _________

______________________________________

_____________________________________

T/K

(B12 ± 2σest)/cm3· mol-1

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 323.15 -98.1 ± 6.2 5.8 348.15 -88.1 ± 7.5 -0.1 353.20 -94.0 ± 10. -8.6 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 59-pra/ben (×) 59-pra/ben (×) 71-vig/sem (…)

40

(B 12 - B 12calc)/cm3·mol-1

30

20

10

0

-10

-20 225

250

275

300

325

350

375

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

230

2 Mixtures Containing an Inorganic Compound

Nitrogen 1-Heptene

[7727-37-9] [592-76-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -142 ± 9 68-cru/gai ___________

______________________________________________

Nitrogen Heptane

T K 333.20 ___________

[7727-37-9] [142-82-5]

N2 C7H14

MW = 28.01 MW = 98.19

B12 ± δB12 cm3· mol-1 -95 ± 10

437

Ref.

______________________________________________

N2 C7H16

68-you

MW = 28.01 MW = 100.20

438

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.6425 ⋅ 103 − 1.5234 ⋅ 106/(T/K) + 4.6319 ⋅ 108/(T/K)2 − 4.9785 ⋅ 1010/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -197.4 ± 15 -132.8 ± 15

T/K 260 300

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -90.1 ± 10 -49.0 ± 10

T/K

(B12 ± 2σest)/cm3· mol-1

30

(B 12 - B 12calc)/cm3·mol-1

20 10 0 -10 -20 -30 -40 -50 250

275

300

325

350

375

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

231

2 Mixtures Containing an Inorganic Compound

Nitrogen + Heptane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 261.80 -190 ± 15.0 3.0 93-sch/lan () 273.00 -156 ± 15.0 13.7 93-sch/lan () 298.15 -142 ± 15.0 -7.2 74-leu/eic („) 298.20 -154 ± 30.0 -19.2 62-des/gol (×) 308.15 -132 ± 9.0 -7.3 68-cru/gai (…) 313.15 -111 ± 15.0 9.1 68-hic/you (♦) 313.20 -110 ± 6.0 10.0 74-leu/eic („) 333.15 -112 ± 13.6 -8.7 83-hou/wan (−) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

Nitrogen 2-Methylhexane

______________________________________________

Nitrogen 3-Methylhexane

______________________________________________

Nitrogen 3-Ethylpentane

______________________________________________

Nitrogen 2,2-Dimethylpentane

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 313.2 ___________

T K

T K 313.20 ___________

Ref. (Symbol in Fig. 1) 68-you (z) 83-hou/wan (−) 68-you (z) 83-hou/wan 1 71-vig/sem (∆) 83-hou/wan 1 83-hou/wan 1

MW = 28.01 MW = 100.20

B12 ± δB12 cm3· mol-1 -115 ± 6

439

Ref. 70-gai/pec

MW = 28.01 MW = 100.20

B12 ± δB12 cm3· mol-1 -105 ± 6

440

Ref.

______________________________________________

N2 C7H16

___________

_____________________________________

______________________________________________

N2 C7H16

[7727-37-9] [590-35-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -133 ± 30 62-des/gol ___________

T K 313.20 ___________

[7727-37-9] [617-78-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -144 ± 30 62-des/gol ___________

N2 C7H16

[7727-37-9] [589-34-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -136 ± 30 62-des/gol ___________

______________________________________

[7727-37-9] [591-76-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -135 ± 30 62-des/gol ___________

Bexp - Bcalc T Bexp ± δB K cm3· mol-1 cm3· mol-1 333.20 -101 ± 10.0 2.3 343.15 -104 ± 13.2 -8.5 348.20 -87 ± 10.0 4.5 353.15 -65.1 ± 9.0 22.5 353.20 -81 ± 10.0 6.6 363.15 -60.6 ± 8.0 19.1 373.15 -56.6 ± 8.0 15.1 _________

74-leu/eic

MW = 28.01 MW = 100.20

B12 ± δB12 cm3· mol-1

441

Ref.

______________________________________________

N2 C7H16

MW = 28.01 MW = 100.20

B12 ± δB12 cm3· mol-1 -177 ± 6

Ref.

______________________________________________

74-leu/eic

442

232

2 Mixtures Containing an Inorganic Compound

Nitrogen 2,3-Dimethylpentane

[7727-37-9] [565-59-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -133 ± 30 62-des/gol ___________

______________________________________________

Nitrogen 2,4-Dimethylpentane

______________________________________________

Nitrogen 3,3-Dimethylpentane

______________________________________________

Nitrogen 2,2,3-Trimethylbutane

______________________________________________

Nitrogen Styrene

___________

T K 313.20 ___________

T K 313.20 ___________

______________________________________________

T K

Ref. 74-leu/eic

MW = 28.01 MW = 100.20

B12 ± δB12 cm3· mol-1 -115 ± 6

444

Ref. 74-leu/eic

MW = 28.01 MW = 100.20

B12 ± δB12 cm3· mol-1 -117 ± 6

445

Ref.

______________________________________________

74-leu/eic

MW = 28.01 MW = 100.20

B12 ± δB12 cm3· mol-1 -100 ± 6

446

Ref.

______________________________________________

N2 C8H8

___________

443

______________________________________________

N2 C7H16

[7727-37-9] [100-42-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -117 ± 10 71-vig/sem

B12 ± δB12 cm3· mol-1 -108 ± 6

N2 C7H16

[7727-37-9] [464-06-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -123 ± 30 62-des/gol ___________

T K 313.20 ___________

MW = 28.01 MW = 100.20

______________________________________________

N2 C7H16

[7727-37-9] [562-49-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -131 ± 30 62-des/gol ___________

T K 313.20 ___________

[7727-37-9] [108-08-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -130 ± 30 62-des/gol 308.15 -109 ± 9 68-cru/gai ___________

N2 C7H16

74-leu/eic

MW = 28.01 MW = 104.15 B12 ± δB12 cm3· mol-1

447

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

233

2 Mixtures Containing an Inorganic Compound

Nitrogen Octane

[7727-37-9] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -146 ± 15 74-leu/eic 308.15 -143 ± 9 68-cru/gai 313.20 -134 ± 6 74-leu/eic ___________

______________________________________________

Nitrogen 2,2-Dimethylhexane

______________________________________________

Nitrogen 2,2,4-Trimethylpentane

______________________________________________

Nitrogen 2,2,3,3-Tetramethylbutane

______________________________________________

Nitrogen Nonane

___________

Landolt-Börnstein New Series IV/21B

T K 353.20 ___________

T K

___________

______________________________________________

T K 298.15 353.20 ___________

448

Ref. 68-you 68-you 71-vig/sem

MW = 28.01 MW = 114.23

B12 ± δB12 cm3· mol-1

449

Ref.

______________________________________________

MW = 28.01 MW = 114.23

B12 ± δB12 cm3· mol-1 -47.0 ± 10.0

450

Ref.

______________________________________________

N2 C8H18

[7727-37-9] [111-84-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 261.60 -240 ± 20 93-sch/lan 273.10 -209 ± 20 93-sch/lan

B12 ± δB12 cm3· mol-1 -119 ± 10 -92 ± 10 -98 ± 10

N2 C8H18

[7727-37-9] [594-82-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.20 -128 ± 6 74-leu/eic ___________

T K

___________

MW = 28.01 MW = 114.23

______________________________________________

N2 C8H18

[7727-37-9] [540-84-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -82.3 ± 5.7 59-pra/ben 348.15 -60.3 ± 6.5 59-pra/ben ___________

T K 333.20 348.20 353.20 ___________

[7727-37-9] [590-73-8]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 313.20 -150 ± 6 74-leu/eic ___________

N2 C8H18

71-vig/sem

MW = 28.01 MW = 114.23

B12 ± δB12 cm3· mol-1

451

Ref.

______________________________________________

N2 C9H20

MW = 28.01 MW = 128.26

B12 ± δB12 cm3· mol-1 -160 ± 15 -117 ± 10

452

Ref.

______________________________________________

74-leu/eic 71-vig/sem

234

2 Mixtures Containing an Inorganic Compound

Nitrogen 2,2,5-Trimethylhexane

[7727-37-9] [3522-94-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -115 ± 10 76-dav/kau 323.20 -93 ± 10 76-dav/kau ___________

______________________________________________

Nitrogen Naphthalene

[7727-37-9] [91-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 295.20 -176 ± 10 62-kin/rob ___________

______________________________________________

Nitrogen (1,1-Dimethylethyl)benzene

____________________________________________

Nitrogen Decane

______________________________________________

Nitrogen Dodecane

T K 353.20 373.20 398.20 ___________

[7727-37-9] [112-40-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 348.20 -134 ± 10 76-dav/kau 373.20 -104 ± 10 76-dav/kau ___________

T K 373.20 398.20 ___________

[7727-37-9] [124-18-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -141 ± 5 59-pra/ben 323.20 -148 ± 10 76-dav/kau 348.15 -112 ± 7 59-pra/ben 348.20 -111 ± 10 76-dav/kau ___________

T K 345.20 ___________

[7727-37-9] [98-06-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -111 ± 10 76-dav/kau 348.20 -83 ± 10 76-dav/kau ___________

T K 348.20 373.20 ___________

______________________________________________

T K 398.20 423.20 ___________

N2 C9H20

MW = 28.01 MW = 128.26

B12 ± δB12 cm3· mol-1 -73 ± 10 -52 ± 10

453

Ref.

______________________________________________

N2 C10H8

76-dav/kau 76-dav/kau

MW = 28.01 MW = 128.17

B12 ± δB12 cm3· mol-1 -113 ± 7

454

Ref.

______________________________________________

N2 C10H14

62-kin/rob

MW = 28.01 MW = 134.22

B12 ± δB12 cm3· mol-1 -70 ± 10 -49 ± 10

455

Ref.

______________________________________________

N2 C10H22

76-dav/kau 76-dav/kau

MW = 28.01 MW = 142.28

B12 ± δB12 cm3· mol-1 -130 ± 10 -82 ± 10 -74 ± 10

456

Ref.

______________________________________________

N2 C12H26

71-vig/sem 76-dav/kau 76-dav/kau

MW = 28.01 MW = 170.34

B12 ± δB12 cm3· mol-1 -74 ± 10 -53 ± 10

457

Ref.

______________________________________________

76-dav/kau 76-dav/kau

Landolt-Börnstein New Series IV/21B

235

2 Mixtures Containing an Inorganic Compound

Nitrous oxide Methanol

[10024-97-2] [67-56-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 288.15 -253 ± 5 72-hem/kin 298.15 -231 ± 8 72-hem/kin 310.15 -194 ± 7 72-hem/kin ___________

______________________________________________

Nitrous oxide Ethanol

[10024-97-2] [64-17-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 298.15 -274 ± 5 73-gup/les 323.15 -215 ± 5 73-gup/les ___________

______________________________________________

Nitrous oxide Naphthalene

______________________________________________

Nitrous oxide Phenanthrene

Landolt-Börnstein New Series IV/21B

T K 319.50 324.00 327.00 332.00 339.00 340.50 ___________

[10024-97-2] [85-01-8]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 326.00 -668 ± 24 70-bra/kin 330.00 -643 ± 24 70-bra/kin 337.00 -652 ± 24 70-bra/kin 341.00 -606 ± 24 70-bra/kin 346.00 -564 ± 24 70-bra/kin 349.00 -567 ± 24 70-bra/kin ___________

T K 348.15 ___________

[10024-97-2] [91-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 293.00 -592 ± 8 68-kin-1 298.00 -579 ± 8 68-kin-1 299.00 -542 ± 10 68-kin-1 300.00 -587 ± 8 68-kin-1 308.00 -519 ± 8 68-kin-1 309.50 -521 ± 12 68-kin-1 316.00 -491 ± 13 68-kin-1 ___________

T K 323.15 333.15 ___________

______________________________________________

T K 356.00 364.00 380.00 397.00 411.00 ___________

N2O CH4O

MW = 44.01 MW = 32.04

B12 ± δB12 cm3· mol-1 -176 ± 7 -161 ± 5

458

Ref.

______________________________________________

N2O C2H6O

72-hem/kin 72-hem/kin

MW = 44.01 MW = 46.07

B12 ± δB12 cm3· mol-1 -177 ± 5

459

Ref.

______________________________________________

N2O C10H8

73-gup/les

MW = 44.01 MW = 128.17

B12 ± δB12 cm3· mol-1 -466 ± 9 -443 ± 7 -442 ± 8 -426 ± 8 -414 ± 8 -405 ± 8

460

Ref.

______________________________________________

N2O C14H10

68-kin-1 68-kin-1 68-kin-1 68-kin-1 68-kin-1 68-kin-1

MW = 44.01 MW = 178.23

B12 ± δB12 cm3· mol-1 -547 ± 24 -504 ± 24 -455 ± 24 -398 ± 24 -345 ± 24

461

Ref.

______________________________________________

70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin

236

2 Mixtures Containing an Inorganic Compound

Neon Oxygen

[7440-01-9] [7782-44-7]

Ne O2

MW = 20.18 MW = 32.00

462

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.2788 ⋅ 10 − 8.0888 ⋅ 103/(T/K) + 2.9009 ⋅ 105/(T/K)2 − 1.6447 ⋅ 107/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -55.1 ± 5 -35.5 ± 5 -13.1 ± 4

T/K 80 100 150

T/K 200 250 300

(B12 ± 2σest)/cm3· mol-1 -2.4 ± 3 4.0 ± 2 8.5 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 77.70 -61.0 ± 4.0 -2.7 84-esl/rig (…) 89.40 -42.0 ± 4.0 2.4 84-esl/rig (…) 90.00 -40.2 ± 3.0 3.6 59-kno/bee (×) 101.50 -33.0 ± 3.0 1.5 84-esl/rig (…) 110.40 -28.0 ± 3.0 0.9 84-esl/rig (…) _________

______________________________________

_____________________________________

T/K 350 400 450

(B12 ± 2σest)/cm3· mol-1 11.7 ± 2 14.1 ± 2 16.1 ± 2

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 120.00 -26.0 ± 3.0 -2.0 130.00 -24.0 ± 4.0 -4.2 296.15 9.4 ± 1.5 1.3 353.15 12.2 ± 2.0 0.4 463.15 15.4 ± 2.0 -1.1 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 84-esl/rig (…) 84-esl/rig (…) 96-vat/sch (♦) 96-vat/sch (♦) 96-vat/sch (♦)

8

(B 12 - B 12calc)/cm3·mol-1

6 4 2 0 -2 -4 -6 -8 -10 50

100

150

200

250

300

350

400

450

500

T/K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

237

2 Mixtures Containing an Inorganic Compound

Neon Xenon

[7440-01-9] [7440-63-3]

Ne Xe

MW = 20.18 MW = 131.29

463

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.4791 ⋅ 10 + 4.7169 ⋅ 103/(T/K) − 1.1208 ⋅ 106/(T/K)2 − 8.5658 ⋅ 107/(T/K)3 T/K 160 200 250

(B12 ± 2σest)/cm3· mol-1 -20.4 ± 5 -0.3 ± 5 10.2 ± 5

T/K 300 350 400

(B12 ± 2σest)/cm3· mol-1 14.9 ± 5 17.1 ± 5 18.2 ± 5

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 18.8 ± 5 19.1 ± 5

10

(B 12 - B 12calc)/cm3·mol-1

8 6 4 2 0 -2 -4 -6 -8 -10 150

200

250

300

350

400

450

500

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 162.72 -20.2 ± 2.0 -1.8 80-dee/sch (…) 168.15 -14.5 ± 2.0 0.3 80-dee/sch (…) 173.15 -10.6 ± 2.0 1.3 80-dee/sch (…) 173.20 -6.5 ± 4.0 5.3 67-bre (×) 183.15 -5.9 ± 2.0 0.9 80-dee/sch (…) 198.15 -2.7 ± 2.0 -1.7 67-bre (×) 198.20 5.6 ± 3.0 6.5 67-bre (×) 213.00 -0.4 ± 4.0 -3.8 80-sch/geh („) 223.00 2.3 ± 4.0 -3.4 80-sch/geh („) _________

Landolt-Börnstein New Series IV/21B

______________________________________

_____________________________________

T K 223.15 223.20 242.00 248.15 262.00 263.15 273.15 273.20 276.00 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 3.5 ± 2.0 -2.2 4.8 ± 2.0 -0.9 6.4 ± 4.0 -2.7 9.4 ± 2.0 -0.6 8.8 ± 5.0 -2.9 14.0 ± 2.0 2.2 19.2 ± 2.0 6.4 10.9 ± 2.0 -1.9 10.8 ± 5.0 -2.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 80-dee/sch (…) 67-bre (×) 80-sch/geh („) 80-dee/sch (…) 80-sch/geh („) 80-dee/sch (…) 80-dee/sch (…) 67-bre (×) 80-sch/geh („) cont.

238

2 Mixtures Containing an Inorganic Compound

Neon + Xenon (cont.) Table 2. (cont.) T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 295.00 13.4 ± 5.0 -1.2 296.15 12.4 ± 6.0 -2.2 323.20 15.7 ± 2.0 -0.4 323.20 15.7 ± 2.0 -0.4 330.00 15.6 ± 5.0 -0.8 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 80-sch/geh („) 82-sch/mue (z) 80-dee/sch (…) 67-bre (×) 80-sch/geh („)

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 173.20 0.500 174.3 ± 0.2 67-bre 198.20 0.500 138.6 ± 0.2 67-bre 223.20 0.500 113.6 ± 0.0 67-bre ___________

______________________________________

Neon Tetrafluoromethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 54.8 ± 0.2 82-mar/tre 300.00 0.500 51.8 ± 0.2 82-mar/tre ___________

_______________________________________

Neon Chlorodifluoromethane

___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 248.20 0.500 329.2 ± 0.2 67-bre 273.20 0.500 234.6 ± 0.2 67-bre ___________

_______________________________________

T x1 K 273.20 0.500 323.20 0.500

T K 320.00 ___________

T K 298.20 ___________

_____________________________________

BE ± δBE cm3· mol-1 82.5 ± 0.2 65.2 ± 0.0

Ref. 67-bre 67-bre

MW = 20.18 MW = 88.00

B12 ± δB12 cm3· mol-1 16.3 ± 0.6

464

Ref.

______________________________________________

BE ± δBE cm3· mol-1 46.8 ± 0.2

82-mar/tre

Ref.

________________________________________

Ne CHClF2

82-mar/tre

MW = 20.18 MW = 86.47

B12 ± δB12 cm3· mol-1 16.2 ± 4.0

465

Ref.

______________________________________________

T x1 BE ± δBE K cm3· mol-1 298.20 0.500 189.9 ± 0.2 ___________

Ref. (Symbol in Fig. 1) 80-sch/geh („) 80-sch/geh („) 80-sch/geh („) 80-sch/geh („) 80-sch/geh („)

________________________________________

Ne CF4

T x1 K 320.00 0.500 ___________

[7440-01-9] [75-45-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 248.20 61.7 ± 6.0 67-bre 273.20 21.6 ± 5.0 67-bre

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 17.6 ± 5.0 0.1 18.8 ± 5.0 0.6 19.5 ± 5.0 0.9 19.6 ± 5.0 0.8 19.2 ± 5.0 0.2 ______________________________________

___________

[7440-01-9] [75-73-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 12.4 ± 0.5 82-mar/tre 300.00 14.1 ± 0.6 82-mar/tre ___________

T K 365.00 400.00 425.00 450.00 475.00 _________

67-bre

Ref.

________________________________________

67-bre

Landolt-Börnstein New Series IV/21B

239

2 Mixtures Containing an Inorganic Compound

Neon Methane

[7440-01-9] [74-82-8]

Ne CH4

MW = 20.18 MW = 16.04

466

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.5364 ⋅ 10 − 5.7379 ⋅ 103/(T/K) − 1.4498 ⋅ 105/(T/K)2 + 6.8207 ⋅ 106/(T/K)3 (B12 ± 2σest)/cm3· mol-1 -18.6 ± 2 -7.3 ± 1

T/K 120 150

T/K 200 250

(B12 ± 2σest)/cm3· mol-1 3.9 ± 1 10.5 ± 1

Table 2. Experimental B12 values with uncertainty. Bexp - Bcalc Ref. (Symbol T Bexp ± δB K cm3· mol-1 cm3· mol-1 in Fig. 1) 123.20 -17.96 ± 2.0 67-bre (♦) -0.8 148.20 -7.82 ± 1.5 67-bre (♦) 0.0 173.20 -1.07 ± 1.0 67-bre (♦) 0.2 223.20 7.18 ± 1.0 67-bre (♦) -0.2 _________

______________________________________

_____________________________________

T K 273.20 290.00 300.00 320.00 _________

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 14.9 ± 1 17.9 ± 1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 12.42 ± 1.0 -0.3 14.50 ± 0.6 0.4 14.90 ± 0.6 0.0 16.10 ± 0.6 -0.1 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 67-bre (♦) 82-mar/tre („) 82-mar/tre („) 82-mar/tre („)

3

3

(B 12 - B 12 calc)/cm ·mol

-1

2 1 0 -1 -2 -3 100

150

200

250

300

350

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 123.20 0.500 114.30 ± 0.2 67-bre 148.20 0.500 82.93 ± 0.2 67-bre ___________

________________________________________

T K 173.20 223.20

x1

___________

BE ± δBE cm3· mol-1 65.05 ± 0.2 44.40 ± 0.2

Ref.

________________________________________

0.500 0.500

67-bre 67-bre cont.

Landolt-Börnstein New Series IV/21B

240

2 Mixtures Containing an Inorganic Compound

Neon + Methane (cont.) Table 4. (cont.) T x1 K 273.20 0.500 290.00 0.500 ___________

BE ± δBE cm3· mol-1 33.62 ± 0.2 32.30 ± 0.6

Ref.

Neon Hexafluoroethane

67-bre 82-mar/tre

[7440-01-9] [76-16-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 17.7 ± 2.0 92-bel/big 300.00 22.5 ± 2.3 92-bel/big ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 151.5 ± 1 92-bel/big 300.00 0.500 144.5 ± 1 92-bel/big ___________

________________________________________

Neon 1,1-Difluoroethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 289.5 ± 1.0 92-bel/big 300.00 0.500 266.6 ± 1.0 92-bel/big ___________

________________________________________

Neon Ethane

______________________________________________

0.500 0.500

Ne C2F6

T K 310.00

T K 310.00 ___________

MW = 20.18 MW = 138.01

B12 ± δB12 cm3· mol-1 20.3 ± 2.3

467

Ref. 92-bel/big

BE ± δBE cm3· mol-1 133.2 ± 1

x1

Ref.

________________________________________

0.500

Ne C2H4F2

92-bel/big

MW = 20.18 MW = 66.05

B12 ± δB12 cm3· mol-1 20.7 ± 2.0

T K 310.00

___________

82-mar/tre 82-mar/tre

______________________________________________

___________

[7440-01-9] [74-84-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 290.00 13.9 ± 4.0 92-bel/big 300.00 15.9 ± 4.0 92-bel/big ___________

T K 310.00

Ref.

________________________________________

T K 310.00

___________

BE ± δBE cm3· mol-1 30.20 ± 0.6 27.80 ± 0.6

x1

___________

[7440-01-9] [75-37-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 15.3 ± 2.0 92-bel/big 300.00 19.5 ± 2.0 92-bel/big ___________

T K 300.00 320.00 ___________

________________________________________

468

Ref.

______________________________________________

x1

92-bel/big

BE ± δBE cm3· mol-1 244.1 ± 1.0

Ref.

________________________________________

0.500

Ne C2H6

92-bel/big

MW = 20.18 MW = 30.07

B12 ± δB12 cm3· mol-1 17.6 ± 4.0

469

Ref.

______________________________________________

92-bel/big

cont. Landolt-Börnstein New Series IV/21B

241

2 Mixtures Containing an Inorganic Compound

Neon + Ethane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 106.2 ± 1.0 92-bel/big 300.00 0.500 101.8 ± 1.0 92-bel/big ___________

________________________________________

Neon Propane

[7440-01-9] [74-98-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 248.20 28.1 ± 1.0 67-bre 273.20 24.2 ± 1.0 67-bre ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 248.20 0.500 312.5 ± 0.2 67-bre 273.20 0.500 252.8 ± 0.2 67-bre ___________

________________________________________

Neon Octafluorocyclobutane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 429.1 ± 1.0 92-bel/big 300.00 0.500 400.3 ± 1.0 92-bel/big ___________

________________________________________

Oxygen Tetrafluoromethane

T K 298.20 ___________

______________________________________________

T K 310.00 ___________

T K 310.00 ___________

[7782-44-7] [75-73-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 290.00 -38.5 ± 1.4 86-dun/big 300.00 -34.5 ± 1.4 86-dun/big ___________

T K 298.20 ___________

[7440-01-9] [115-25-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 12.7 ± 5.0 92-bel/big 300.00 21.5 ± 5.0 92-bel/big ___________

T K 310.00 ___________

T K 320.00 ___________

BE ± δBE cm3· mol-1 96.3 ± 1.0

x1

Ref.

________________________________________

0.500

Ne C3H8

92-bel/big

MW = 20.18 MW = 44.10

B12 ± δB12 cm3· mol-1 26.1 ± 1.0

470

Ref.

______________________________________________

x1

67-bre

BE ± δBE cm3· mol-1 214.3 ± 0.2

Ref.

________________________________________

0.500

Ne C4F8

67-bre

MW = 20.18 MW = 200.03

B12 ± δB12 cm3· mol-1 21.9 ± 5.0

471

Ref.

______________________________________________

x1

92-bel/big

BE ± δBE cm3· mol-1 369.0 ± 1.0

Ref.

________________________________________

0.500

O2 CF4

92-bel/big

MW = 32.00 MW = 88.00

B12 ± δB12 cm3· mol-1 -27.2 ± 1.4

472

Ref.

______________________________________________

86-dun/big

cont. Landolt-Börnstein New Series IV/21B

242

2 Mixtures Containing an Inorganic Compound

Oxygen + Tetrafluoromethane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 18.0 ± 0.4 86-dun/big 300.00 0.500 16.6 ± 0.4 86-dun/big ___________

________________________________________

Oxygen Methane

[7782-44-7] [74-82-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -25.7 ± 1.1 82-mar/tre 300.00 -22.7 ± 1.1 82-mar/tre ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 290.00 0.500 6.1 ± 0.2 82-mar/tre 300.00 0.500 6.0 ± 0.2 82-mar/tre ___________

________________________________________

Oxygen Cyclopentane

______________________________________________

Oxygen Pentane

___________

T K 320.00 ___________

______________________________________________

0.500

B12 ± δB12 cm3· mol-1 -18.1 ± 1.0

T K

Ref.

BE ± δBE cm3· mol-1 5.4 ± 0.2

82-mar/tre

Ref.

________________________________________

82-mar/tre

MW = 32.00 MW = 70.13

B12 ± δB12 cm3· mol-1

474

Ref.

______________________________________________

O2 C5H12

___________

473

______________________________________________

O2 C5H10 T K

86-dun/big

MW = 32.00 MW = 16.04

T x1 K 310.00 0.500

___________

Ref.

________________________________________

___________

[7782-44-7] [109-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -152 ± 30 62-des/gol

BE ± δBE cm3· mol-1 15.2 ± 0.4

x1

O2 CH4

[7782-44-7] [287-92-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -152 ± 30 62-des/gol ___________

T K 320.00 ___________

MW = 32.00 MW = 72.15

B12 ± δB12 cm3· mol-1

475

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

243

2 Mixtures Containing an Inorganic Compound

Oxygen 2-Methylbutane

[7782-44-7] [78-78-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -125 ± 30 62-des/gol ___________

______________________________________________

Oxygen Benzene

______________________________________________

Oxygen Cyclohexane

______________________________________________

Oxygen Hexane

______________________________________________

Oxygen 2-Methylpentane

___________

Landolt-Börnstein New Series IV/21B

T K

___________

______________________________________________

T K

___________

B12 ± δB12 cm3· mol-1 -79 ± 8

T K

477

Ref.

______________________________________________

68-eve/gai

MW = 32.00 MW = 84.16

B12 ± δB12 cm3· mol-1

478

Ref.

______________________________________________

MW = 32.00 MW = 86.18

B12 ± δB12 cm3· mol-1

479

Ref.

______________________________________________

O2 C6H14

___________

476

Ref.

MW = 32.00 MW = 78.11

O2 C6H14

[7782-44-7] [107-83-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -155 ± 30 62-des/gol

B12 ± δB12 cm3· mol-1

O2 C6H12

[7782-44-7] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -163 ± 30 62-des/gol ___________

T K 323.15 ___________

MW = 32.00 MW = 72.15

______________________________________________

O2 C6H6

[7782-44-7] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -163 ± 30 62-des/gol ___________

T K

___________

[7782-44-7] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -157 ± 30 62-des/gol 298.20 -104 ± 6 67-bra/kin ___________

O2 C5H12

MW = 32.00 MW = 86.18

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

480

244

2 Mixtures Containing an Inorganic Compound

Oxygen 3-Methylpentane

[7782-44-7] [96-14-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -163 ± 30 62-des/gol ___________

______________________________________________

Oxygen 2,2-Dimethylbutane

______________________________________________

Oxygen 2,3-Dimethylbutane

______________________________________________

Oxygen Heptane

______________________________________________

Oxygen 2-Methylhexane

___________

T K

___________

______________________________________________

T K

___________

T K

Ref.

MW = 32.00 MW = 86.18

B12 ± δB12 cm3· mol-1

482

Ref.

MW = 32.00 MW = 86.18

B12 ± δB12 cm3· mol-1

483

Ref.

______________________________________________

MW = 32.00 MW = 100.20

B12 ± δB12 cm3· mol-1

484

Ref.

______________________________________________

O2 C7H16

___________

481

______________________________________________

O2 C7H16

[7782-44-7] [591-76-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -175 ± 30 62-des/gol

B12 ± δB12 cm3· mol-1

O2 C6H14

[7782-44-7] [142-82-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -183 ± 30 62-des/gol ___________

T K

___________

MW = 32.00 MW = 86.18

______________________________________________

O2 C6H14

[7782-44-7] [79-29-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -153 ± 30 62-des/gol ___________

T K

___________

[7782-44-7] [75-83-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -145 ± 30 62-des/gol ___________

O2 C6H14

MW = 32.00 MW = 100.20

B12 ± δB12 cm3· mol-1

485

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

245

2 Mixtures Containing an Inorganic Compound

Oxygen 3-Methylhexane

[7782-44-7] [589-34-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -180 ± 30 62-des/gol ___________

______________________________________________

Oxygen 3-Ethylpentane

______________________________________________

Oxygen 2,3-Dimethylpentane

______________________________________________

Oxygen 2,4-Dimethylpentane

______________________________________________

Oxygen 3,3-Dimethylpentane

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K

___________

T K

___________

T K

Ref.

MW = 32.00 MW = 100.20

B12 ± δB12 cm3· mol-1

487

Ref.

MW = 32.00 MW = 100.20

B12 ± δB12 cm3· mol-1

488

Ref.

______________________________________________

MW = 32.00 MW = 100.20

B12 ± δB12 cm3· mol-1

489

Ref.

______________________________________________

O2 C7H16

___________

486

______________________________________________

O2 C7H16

[7782-44-7] [562-49-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -165 ± 30 62-des/gol

B12 ± δB12 cm3· mol-1

O2 C7H16

[7782-44-7] [108-08-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -166 ± 30 62-des/gol ___________

T K

___________

MW = 32.00 MW = 100.20

______________________________________________

O2 C7H16

[7782-44-7] [565-59-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.20 -167 ± 30 62-des/gol ___________

T K

___________

[7782-44-7] [617-78-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -176 ± 30 62-des/gol ___________

O2 C7H16

MW = 32.00 MW = 100.20

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

490

246

2 Mixtures Containing an Inorganic Compound

Oxygen 2,2,3-Trimethylbutane

[7782-44-7] [464-06-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -160 ± 30 62-des/gol ___________

______________________________________________

Oxygen Naphthalene

______________________________________________

Oxygen Anthracene

______________________________________________

Sulfur dioxide Dimethyl ether

______________________________________________

Sulfur dioxide Methoxyethane

___________

______________________________________________

T K

___________

T K 348.15 373.15 ___________

[7446-09-5] [540-67-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -1381 ± 11 70-osi/str 323.15 -1179 ± 87 70-osi/str

B12 ± δB12 cm3· mol-1

T K 348.15 373.15 ___________

491

Ref.

MW = 32.00 MW = 128.17

B12 ± δB12 cm3· mol-1

492

Ref.

______________________________________________

O2 C14H10

[7446-09-5] [115-10-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.15 -1085 ± 43 70-osi/str 323.15 -648 ± 56 70-osi/str ___________

T K

___________

MW = 32.00 MW = 100.20

______________________________________________

O2 C10H8

[7782-44-7] [120-12-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 348.20 -186 ± 6 67-bra/kin ___________

T K

___________

[7782-44-7] [91-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 297.20 -170 ± 12 67-bra/kin ___________

O2 C7H16

MW = 32.00 MW = 178.23

B12 ± δB12 cm3· mol-1

493

Ref.

______________________________________________

O2S C2H6O

MW = 64.06 MW = 46.07

B12 ± δB12 cm3· mol-1 -411 ± 97 -230 ± 39

494

Ref.

______________________________________________

O2S C3H8O

70-osi/str 70-osi/str

MW = 64.06 MW = 60.10

B12 ± δB12 cm3· mol-1 -787 ± 81 -538 ± 63

495

Ref.

______________________________________________

70-osi/str 70-osi/str

Landolt-Börnstein New Series IV/21B

247

2 Mixtures Containing an Inorganic Compound

Sulfur dioxide Diethyl ether

[7446-09-5] [60-29-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -1283 ± 50 65-str/kre 323.25 -907 ± 50 65-str/kre ___________

______________________________________________

Sulfur dioxide Butyl methyl ether

___________

______________________________________________

Sulfur dioxide Methyl pentyl ether

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 348.15 -452 ± 46 70-osi/str ___________

______________________________________________

Xenon Tetrafluoromethane

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -93.1 ± 2.3 86-dun/big 300.00 -86.8 ± 2.1 86-dun/big ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 23.7 ± 0.4 86-dun/big 300.00 0.500 22.5 ± 0.4 86-dun/big ___________

Landolt-Börnstein New Series IV/21B

________________________________________

O2S C5H12O

O2S C6H14O

T K 320.00 ___________

497

Ref. 70-osi/str

MW = 64.06 MW = 102.18

B12 ± δB12 cm3· mol-1 -119 ± 27

T K 373.15

T K 320.00

65-str/kre 65-str/kre

______________________________________________

___________

___________

Ref.

MW = 64.06 MW = 88.15

B12 ± δB12 cm3· mol-1 -552 ± 38

T K 373.15

[7440-63-3] [75-73-0]

496

______________________________________________

___________

[7446-09-5] [628-80-8]

MW = 64.06 MW = 74.12

B12 ± δB12 cm3· mol-1 -702 ± 50 -471 ± 50

T K 348.15 368.15 ___________

[7446-09-5] [628-28-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -890 ± 102 70-osi/str 348.15 -744 ± 10 70-osi/str

O2S C4H10O

498

Ref.

______________________________________________

Xe CF4

70-osi/str

MW = 131.29 MW = 88.00

B12 ± δB12 cm3· mol-1 -72.1 ± 1.7

499

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1 20.7 ± 0.4

86-dun/big

Ref.

________________________________________

0.500

86-dun/big

248

2 Mixtures Containing an Inorganic Compound

Xenon Methane

[7440-63-3] [74-82-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 173.20 -219.8 ± 3.5 67-bre 223.20 -136.0 ± 2.0 67-bre ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 173.20 0.500 33.7 ± 0.2 67-bre 223.20 0.500 19.2 ± 0.2 67-bre ___________

________________________________________

Xenon Hexafluoroethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 50.4 ± 1.0 92-bel/big 300.00 0.500 47.8 ± 1.0 92-bel/big ___________

________________________________________

Xenon Ethene

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 205.80 0.500 15.8 ± 0.5 96-agu/nun-1 213.10 0.500 12.1 ± 0.5 96-agu/nun-1 ___________

T K 310.00 ___________

T K 310.00 ___________

[7440-63-3] [74-85-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 205.79 -263.9 ± 3.0 96-agu/nun 213.08 -249.8 ± 3.0 96-agu/nun 223.43 -227.6 ± 3.0 96-agu/nun 233.19 -211.5 ± 3.0 96-agu/nun 243.02 -196.6 ± 3.0 96-agu/nun ___________

T K 273.20 ___________

[7440-63-3] [76-16-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -159.9 ± 20.0 92-bel/big 300.00 -146.3 ± 20.0 92-bel/big ___________

T K 273.20 ___________

________________________________________

T K 243.08 283.03 262.80 262.91 272.79 ___________

T K 223.40 233.20 ___________

Xe CH4

MW = 131.29 MW = 16.04

B12 ± δB12 cm3· mol-1 -90.7 ± 1.0

500

Ref.

______________________________________________

BE ± δBE cm3· mol-1 13.1 ± 0.2

x1

67-bre

Ref.

________________________________________

0.500

Xe C2F6

67-bre

MW = 131.29 MW = 138.01

B12 ± δB12 cm3· mol-1 -134.6 ± 15.0

501

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1 45.6 ± 1.0

92-bel/big

Ref.

________________________________________

0.500

Xe C2H4

92-bel/big

MW = 131.29 MW = 28.05

B12 ± δB12 cm3· mol-1 -195.9 ± 3.0 -180.9 ± 3.0 -168.7 ± 3.0 -168.6 ± 3.0 -157.4 ± 3.0

502

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1 11.8 ± 0.5 9.2 ± 0.5

96-agu/nun 96-agu/nun 96-agu/nun 96-agu/nun 96-agu/nun

Ref.

________________________________________

0.500 0.500

96-agu/nun-1 96-agu/nun-1 cont.

Landolt-Börnstein New Series IV/21B

249

2 Mixtures Containing an Inorganic Compound

Xenon + Ethene (cont.) Table 4. (cont.) T x1 K 243.00 0.500 243.10 0.500 253.00 0.500

BE ± δBE cm3· mol-1 7.3 ± 0.5 7.9 ± 0.5 7.6 ± 0.5

___________

Ref. 96-agu/nun-1 96-agu/nun-1 96-agu/nun-1

Xenon 1,1-Difluoroethane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 290.00 0.500 163.8 ± 1.0 92-bel/big 300.00 0.500 147.9 ± 1.0 92-bel/big ___________

________________________________________

Xenon Ethane

T K 310.00 ___________

[7440-63-3] [74-84-0]

Ref.

________________________________________

0.500 0.500 0.500

Xe C2H4F2

T K 310.00 ___________

BE ± δBE cm3· mol-1 6.5 ± 0.5 6.4 ± 0.5 6.4 ± 0.5

x1

[7440-63-3] [75-37-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -187.0 ± 10 92-bel/big 300.00 -171.4 ± 10 92-bel/big ___________

T K 262.80 262.90 272.80 ___________

________________________________________

96-agu/nun-1 96-agu/nun-1 96-agu/nun-1

MW = 131.29 MW = 66.05

B12 ± δB12 cm3· mol-1 -160.6 ± 9

503

Ref.

______________________________________________

x1

92-bel/big

BE ± δBE cm3· mol-1 130.2 ± 1.0

Ref.

________________________________________

0.500

Xe C2H6

92-bel/big

MW = 131.29 MW = 30.07

504

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 5.1827 ⋅ 102 − 3.8414 ⋅ 105/(T/K) + 7.8606 ⋅ 107/(T/K)2 − 7.1487 ⋅ 109/(T/K)3 T/K 210

(B12 ± 2σest)/cm3· mol-1 -300.4 ± 10

T/K 250

(B12 ± 2σest)/cm3· mol-1 -218.1 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 206.61 -310.0 ± 5.0 96-agu/nun (♦) 0.1 215.60 -286.0 ± 4.0 96-agu/nun (♦) -0.3 224.85 -263.0 ± 4.0 96-agu/nun (♦) 1.2 233.02 -248.7 ± 4.0 96-agu/nun (♦) -1.1 243.13 -228.9 ± 3.0 96-agu/nun (♦) 0.4 253.08 -213.8 ± 3.0 96-agu/nun (♦) -0.5 _________

______________________________________

_____________________________________

T K 253.18 265.05 273.32 290.00 300.00 310.00 _________

T/K 300

(B12 ± 2σest)/cm3· mol-1 -153.6 ± 15

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -213.1 ± 3.0 0.1 -195.9 ± 3.0 0.1 -184.8 ± 3.0 0.3 -166.5 ± 18.0 -1.7 -154.0 ± 18.0 -0.4 -141.2 ± 16.0 1.7 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 96-agu/nun (♦) 96-agu/nun (♦) 96-agu/nun (♦) 92-bel/big („) 92-bel/big („) 92-bel/big („)

cont. Landolt-Börnstein New Series IV/21B

250

2 Mixtures Containing an Inorganic Compound

Xenon + Ethane (cont.)

20

(B 12 - B 12calc)/cm3·mol-1

15 10 5 0 -5 -10 -15 -20 200

225

250

275

300

325

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm K cm3· mol-1 272.71 0.500 -187.9 ± 5 94-dua/gue 284.30 0.500 -176.6 ± 5 94-dua/gue 292.73 0.500 -169.9 ± 5 94-dua/gue

T K 297.19 298.76 301.54

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 206.61 0.500 11.9 ± 0.5 96-agu/nun 215.60 0.500 10.0 ± 0.5 96-agu/nun 224.85 0.500 9.6 ± 0.5 96-agu/nun 233.02 0.500 6.4 ± 0.5 96-agu/nun 243.13 0.500 6.5 ± 0.5 96-agu/nun 253.15 0.500 4.5 ± 0.5 96-agu/nun

T K 253.18 265.05 273.15 290.00 300.00 310.00

___________

___________

__________________________________________

________________________________________

___________

___________

x1

Bm ± δBm cm3· mol-1 -165.5 ± 5 -163.3 ± 5 -158.3 ± 5

Ref.

__________________________________________

0.500 0.480 0.480

x1

BE ± δBE cm3· mol-1 4.9 ± 0.5 3.9 ± 0.5 3.4 ± 0.5 2.4 ± 1.0 2.9 ± 1.0 4.9 ± 1.0

94-dua/gue 94-dua/gue 94-dua/gue

Ref.

________________________________________

0.500 0.500 0.500 0.500 0.500 0.500

96-agu/nun 96-agu/nun 96-agu/nun 92-bel/big 92-bel/big 92-bel/big

Landolt-Börnstein New Series IV/21B

251

2 Mixtures Containing an Inorganic Compound

Xenon Octafluorocyclobutane

[7440-63-3] [115-25-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -289.2 ± 26.0 92-bel/big 300.00 -263.7 ± 26.0 92-bel/big ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 203.7 ± 1.0 92-bel/big 300.00 0.500 187.3 ± 1.0 92-bel/big ___________

Landolt-Börnstein New Series IV/21B

________________________________________

T K 310.00 ___________

T K 310.00 ___________

Xe C4F8

MW = 131.29 MW = 200.03

B12 ± δB12 cm3· mol-1 -245.3 ± 25.0

505

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1 169.3 ± 1.0

92-bel/big

Ref.

________________________________________

0.500

92-bel/big

253

3 Mixtures of Two Organic Compounds

3 Virial Coefficients of Mixtures of Two Organic Compounds Chlorotrifluoromethane Trichlorofluoromethane

[75-72-9] [75-69-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 302.20 -448.4 ± 18.0 76-bou/jad ___________

______________________________________________

Chlorotrifluoromethane Chlorodifluoromethane

______________________________________________

Chlorotrifluoromethane Trifluoromethane

______________________________________________

Dichlorodifluoromethane Trichlorofluoromethane

______________________________________________

Dichlorodifluoromethane Chlorodifluoromethane

___________

______________________________________________

T K 300.31 ___________

T K 302.20 ___________

T K 253.00 263.00

Ref. 76-bou/jad

MW = 104.46 MW = 86.47

B12 ± δB12 cm3· mol-1 -265.9 ± 10.0

507

Ref. 76-bou/jad

MW = 104.46 MW = 70.01

B12 ± δB12 cm3· mol-1 -170.4 ± 7.0

508

Ref.

______________________________________________

76-bou/jad

MW = 120.91 MW = 137.37

B12 ± δB12 cm3· mol-1 -432.2 ± 17.0

509

Ref.

______________________________________________

CCl2F2 CHClF2

___________

506

______________________________________________

CCl2F2 CCl3F

[75-71-8] [75-45-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 233.00 -605 ± 25 89-nat/sch 243.00 -546 ± 20 89-nat/sch

B12 ± δB12 cm3· mol-1 -427.5 ± 17.0

CClF3 CHF3

[75-71-8] [75-69-4]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 302.20 -446.4 ± 18.0 76-bou/jad ___________

T K 300.70 ___________

MW = 104.46 MW = 137.37

______________________________________________

CClF3 CHClF2

[75-72-9] [75-46-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 300.30 -163.0 ± 7.0 76-bou/jad ___________

T K 302.20 ___________

[75-72-9] [75-45-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 300.70 -275.3 ± 10.0 76-bou/jad ___________

CClF3 CCl3F

76-bou/jad

MW = 120.91 MW = 86.47

B12 ± δB12 cm3· mol-1 -499 ± 20 -454 ± 15

510

Ref.

______________________________________________

89-nat/sch 89-nat/sch cont.

Landolt-Börnstein New Series IV/21B

254

3 Mixtures of Two Organic Compounds

Dichlorodifluoromethane + Chlorodifluoromethane (cont.) Table 2. (cont.) T B12 ± δB12 K cm3· mol-1 273.00 -417 ± 15 296.15 -347 ± 12 296.20 -350 ± 12 300.50 -379 ± 15 300.50 -371 ± 15 ___________

Ref.

T K 300.50 353.15 413.15 473.15 ___________

______________________________________________

89-nat/sch 92-sch/hau 89-nat/sch 76-bou/jad 76-bou/jad

Dichlorodifluoromethane Trifluoromethane

[75-71-8] [75-46-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 300.50 -297.7 ± 10.0 76-bou/jad 300.50 -300.7 ± 12.0 76-bou/jad ___________

______________________________________________

Dichlorodifluoromethane 1,1-Difluoroethane

CCl2F2 CHF3

T K 300.50 ___________

[75-71-8] [75-37-6] T K 373.15 393.15 413.15

Table 5. Experimental Cm values with uncertainty. x2 T Cm ± δCm Ref. 3 K 10 · cm6· mol-2 298.15 0.394 -544.5 ± 0.1 78-pra/kud 313.15 0.394 -457.5 ± 0.1 78-pra/kud 333.15 0.394 -352.5 ± 0.1 78-pra/kud 353.15 0.394 -250.1 ± 0.1 78-pra/kud

T K 373.15 393.15 413.15

___________

__________________________________________

___________________________________________________________

Trichlorofluoromethane Trifluoromethane

______________________________________________

___________

[75-69-4] [75-46-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 302.20 -247.6 ± 10.0 76-bou/jad ___________

___________

T K 302.20

76-bou/jad 92-sch/hau 92-sch/hau 92-sch/hau

MW = 120.91 MW = 70.01

B12 ± δB12 cm3· mol-1 -293.8 ± 12.0

x2

511

Ref. 76-bou/jad

MW = 120.91 MW = 66.05 Bm ± δBm cm3· mol-1 -237.5 ± 3.0 -212.1 ± 3.0 -190.0 ± 3.0

512

Ref.

__________________________________________

0.394 0.394 0.394

x2

Cm ± δCm 10 · cm6· mol-2 -160.0 ± 0.1 -82.1 ± 0.1 -25.0 ± 0.1

78-pra/kud 78-pra/kud 78-pra/kud

Ref.

___________________________________________________________

3

0.394 0.394 0.394

CCl3F CHF3

___________

Ref.

______________________________________________

CCl2F2 C2H4F2

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 298.15 0.394 -365.5 ± 3.0 78-pra/kud 313.15 0.394 -334.1 ± 3.0 78-pra/kud 333.15 0.394 -299.3 ± 3.0 78-pra/kud 353.15 0.394 -267.5 ± 3.0 78-pra/kud ___________

B12 ± δB12 cm3· mol-1 -362 ± 15 -230 ± 17 -158 ± 18 -112 ± 19

______________________________________________

78-pra/kud 78-pra/kud 78-pra/kud

MW = 137.37 MW = 70.01

B12 ± δB12 cm3· mol-1 -239.0 ± 10.0

513

Ref.

______________________________________________

76-bou/jad

Landolt-Börnstein New Series IV/21B

255

3 Mixtures of Two Organic Compounds

Tetrachloromethane Trichloromethane

[56-23-5] [67-66-3]

Table 3. Experimental Bm values with uncertainty. T x1 Bm ± δBm Ref. K cm3· mol-1 ___________

CCl4 CHCl3 T K

MW = 153.82 MW = 119.38 Bm ± δBm cm3· mol-

x1

___________

__________________________________________

514

Ref.

__________________________________________

1

309.50 315.70 315.70 323.20 323.20

0.503 0.493 0.503 0.236 0.493

-1310 -1180 -1224 -1265 -1155

Tetrachloromethane Methane

± ± ± ± ±

50 50 50 50 50

55-fra/mcg 55-fra/mcg 55-fra/mcg 55-fra/mcg 55-fra/mcg

323.20 333.70 333.70 337.20 343.20

[56-23-5] [74-82-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 273.20 -252 ± 8 72-gup/kin 298.20 -205 ± 4 72-gup/kin ___________

Tetrachloromethane Ethene

___________

______________________________________________

Tetrachloromethane 1-Propanol

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 323.20 348.20 ___________

T K 313.15

50 50 50 50 50

55-fra/mcg 55-fra/mcg 55-fra/mcg 55-fra/mcg 55-fra/mcg

B12 ± δB12 cm3· mol-1 -174 ± 3 -129 ± 5

515

Ref.

______________________________________________

72-gup/kin 72-gup/kin

MW = 153.82 MW = 28.05

B12 ± δB12 cm3· mol-1 -299 ± 5 -248 ± 3

516

Ref.

______________________________________________

CCl4 C3H8O

___________

± ± ± ± ±

MW = 153.82 MW = 16.04

CCl4 C2H4

[56-23-5] [71-23-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.15 -1600 ± 160 66-mar/sok 303.15 -1500 ± 150 66-mar/sok ___________

T K 323.20 348.20

[56-23-5] [74-85-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 273.20 -457 ± 10 72-gup/kin 298.20 -384 ± 7 72-gup/kin

-1155 -1180 -1080 -1115 -995

CCl4 CH4

___________

______________________________________________

0.503 0.236 0.503 0.247 0.493

72-gup/kin 72-gup/kin

MW = 153.82 MW = 60.09

B12 ± δB12 cm3· mol-1 -1350 ± 140

Ref.

______________________________________________

66-mar/sok

517

256

3 Mixtures of Two Organic Compounds

Tetrachloromethane Benzene

[56-23-5] [71-43-2]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 353.20 -1014 ± 30 98-par/rie 363.20 -939 ± 10 68-rae/ras 363.20 -940 ± 8 68-rae/ras 363.20 -953 ± 30 98-par/rie ___________

______________________________________________

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 315.70 0.499 -1145 ± 200 55-fra/mcg 323.20 0.499 -1120 ± 200 55-fra/mcg 333.70 0.499 -1030 ± 200 55-fra/mcg ___________

__________________________________________

Tetrachloromethane Cyclohexane

______________________________________________

Tetrafluoromethane Trifluoromethane

T K 373.20 383.20 403.20 423.20 ___________

T K 343.20 349.30 ___________

[56-23-5] [110-82-7]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 353.20 -1047 ± 30 98-par/rie 363.20 -984 ± 30 68-rae/ras 373.20 -928 ± 30 98-par/rie ___________

CCl4 C6H6

T K 383.20 403.20 423.20 ___________

[75-73-0] [75-46-7]

Table 6. Experimental C112 values with uncertainty. T Ref. C112 ± δC112 3 6 -2 K 10 · cm · mol 243.15 7.20 ± 0.5 70-lan/ste 273.15 6.40 ± 0.2 70-lan/ste

T K 313.15 368.15

___________

__________________________________________________________

___________

___________

Ref. 98-par/rie 98-par/rie 98-par/rie 98-par/rie

Bm ± δBm cm3· mol-1 -950 ± 200 -945 ± 200

x1

Ref.

__________________________________________

0.500 0.506

55-fra/mcg 55-fra/mcg

MW = 153.82 MW = 84.16

B12 ± δB12 cm3· mol-1 -876 ± 30 -784 ± 30 -715 ± 30

519

Ref.

______________________________________________

CF4 CHF3

T K 313.15 368.15

______________________________________________

B12 ± δB12 cm3· mol-1 -898 ± 30 -848 ± 30 -759 ± 30 -684 ± 30

518

______________________________________________

CCl4 C6H12

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 243.15 -159.3 ± 1.8 70-lan/ste 273.15 -122.7 ± 1.4 70-lan/ste ___________

MW = 153.82 MW = 78.11

98-par/rie 98-par/rie 98-par/rie

MW = 88.00 MW = 70.01

B12 ± δB12 cm3· mol-1 -85.3 ± 1.4 -51.1 ± 1.0

520

Ref.

______________________________________________

C112 ± δC112 103· cm6· mol-2 4.95 ± 0.2 4.70 ± 0.5

70-lan/ste 70-lan/ste

Ref.

__________________________________________________________

70-lan/ste 70-lan/ste

cont. Landolt-Börnstein New Series IV/21B

257

3 Mixtures of Two Organic Compounds

Tetrafluoromethane + Trifluoromethane (cont.) Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 243.15 11.80 ± 0.6 70-lan/ste 273.15 10.25 ± 0.3 70-lan/ste ___________

__________________________________________________________

Tetrafluoromethane Methane

T K 313.15 368.15 ___________

[75-73-0] [74-82-8]

C122 ± δC122 103· cm6· mol-2 7.10 ± 0.2 4.20 ± 0.3

Ref.

__________________________________________________________

CF4 CH4

70-lan/ste 70-lan/ste

MW = 88.00 MW = 16.04

521

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 8.6407 ⋅ 10 − 5.9805 ⋅ 104/(T/K) + 1.8721 ⋅ 107/(T/K)2 − 5.6828 ⋅ 109/(T/K)3 + 5.4603 ⋅ 1011/(T/K)4 T/K 275 350 400

(B12 ± 2σest)/cm3· mol-1 -61.3 ± 2 -27.8 ± 2 -13.6 ± 1

T/K 450 500 550

(B12 ± 2σest)/cm3· mol-1 -3.1 ± 1 5.0 ± 1 11.4 ± 1

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -62.1 ± 0.7 0.3 67-dou/har (×) 290.00 -52.4 ± 1.5 0.6 82-mar/tre („) 296.15 -52.5 ± 5.0 -2.6 82-sch/mue (♦) 298.15 -48.5 ± 0.7 0.4 67-dou/har (×) 298.15 -52.0 ± 2.0 -3.1 71-dan/kno (∆) 300.00 -47.5 ± 1.4 0.5 82-mar/tre („) 303.15 -46.1 ± 0.7 0.4 67-dou/har(×) 320.00 -37.6 ± 1.3 1.4 82-mar/tre („) 323.15 -37.4 ± 0.7 0.3 67-dou/har (×) 323.15 -39.0 ± 2.0 -1.3 71-dan/kno (∆) 348.15 -28.3 ± 0.7 0.1 67-dou/har (×) 373.15 -20.4 ± 0.7 0.2 67-dou/har (×) _________

______________________________________

_____________________________________

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 273.15 0.250 -89.1 ± 0.5 67-dou/har 273.15 0.500 -72.3 ± 0.5 67-dou/har 273.15 0.750 -60.0 ± 0.5 67-dou/har 298.15 0.250 -70.7 ± 0.5 67-dou/har 298.15 0.500 -57.1 ± 0.5 67-dou/har 298.15 0.750 -47.5 ± 0.5 67-dou/har 303.15 0.250 -67.4 ± 0.5 67-dou/har ___________

Landolt-Börnstein New Series IV/21B

__________________________________________

T/K 600 650

(B12 ± 2σest)/cm3· mol-1 16.6 ± 1 21.1 ± 1

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 373.15 -22.0 ± 2.0 -1.4 398.15 -14.0 ± 0.7 0.0 423.15 -8.3 ± 0.7 0.0 448.15 -3.2 ± 0.7 0.2 473.15 1.0 ± 0.7 0.1 498.15 4.9 ± 0.7 0.2 523.15 8.3 ± 0.7 0.2 548.15 11.4 ± 0.7 0.2 573.15 14.1 ± 0.7 0.2 598.15 16.6 ± 0.7 0.1 623.15 18.9 ± 0.7 0.1 _________

T K 303.15 303.15 323.15 323.15 323.15 348.15 348.15 ___________

______________________________________

x2

_____________________________________

Ref. (Symbol in Fig. 1) 71-dan/kno (∆) 67-dou/har (×) 67-dou/har (×) 67-dou/har (×) 67-dou/har (×) 67-dou/har (×) 67-dou/har (×) 67-dou/har (×) 67-dou/har (×) 67-dou/har (×) 67-dou/har (×)

Bm ± δBm cm3· mol-1 -54.5 ± 0.5 -45.4 ± 0.5 -55.9 ± 0.5 -45.0 ± 0.5 -37.5 ± 0.5 -43.8 ± 0.5 -35.0 ± 0.5

Ref.

__________________________________________

0.500 0.750 0.250 0.500 0.750 0.250 0.500

67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har cont.

258

3 Mixtures of Two Organic Compounds

Tetrafluoromethane + Methane (cont.) Table 3. (cont.) T x2 K 348.15 0.750 373.15 0.250 373.15 0.500 373.15 0.750 398.15 0.250 398.15 0.500 398.15 0.750 423.15 0.250 423.15 0.500 423.15 0.750 448.15 0.250 448.15 0.500 448.15 0.750 473.15 0.250 473.15 0.500 473.15 0.750 498.15 0.250 ___________

Bm ± δBm cm3· mol-1 -29.1 ± 0.5 -33.6 ± 0.5 -26.4 ± 0.5 -22.0 ± 0.5 -25.1 ± 0.5 -19.3 ± 0.5 -16.0 ± 0.5 -17.7 ± 0.5 -13.1 ± 0.5 -10.9 ± 0.5 -11.3 ± 0.5 -7.7 ± 0.5 -6.3 ± 0.5 -5.8 ± 0.5 -3.1 ± 0.5 -2.4 ± 0.5 -0.8 ± 0.5

Ref.

T K 498.15 498.15 523.15 523.15 523.15 548.15 548.15 548.15 573.15 573.15 573.15 598.15 598.15 598.15 623.15 623.15 623.15 ___________

__________________________________________

67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har

x2

Bm ± δBm cm3· mol-1 1.1 ± 0.5 1.1 ± 0.5 3.5 ± 0.5 4.8 ± 0.5 4.3 ± 0.5 7.4 ± 0.5 8.0 ± 0.5 7.1 ± 0.5 10.8 ± 0.5 11.0 ± 0.5 9.6 ± 0.5 14.0 ± 0.5 13.7 ± 0.5 11.9 ± 0.5 16.8 ± 0.5 16.1 ± 0.5 14.1 ± 0.5

Ref.

__________________________________________

0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750

67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har

(B 12 - B 12calc)/cm3·mol-1

4 2 0 -2 -4 -6 -8 250

300

350

400

450

500

550

600

650

T /K Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 18.5 ± 0.2 82-mar/tre 298.15 0.500 13.0 ± 1.0 71-dan/kno 300.00 0.500 17.9 ± 0.2 82-mar/tre ___________

________________________________________

T K 320.00 323.15 373.15 ___________

x1

BE ± δBE cm3· mol-1 16.1 ± 0.2 13.0 ± 2.0 10.0 ± 1.0

Ref.

________________________________________

0.500 0.500 0.500

82-mar/tre 71-dan/kno 71-dan/kno cont. Landolt-Börnstein New Series IV/21B

259

3 Mixtures of Two Organic Compounds

Tetrafluoromethane + Methane (cont.) Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm K 103· cm6· mol-2 273.15 0.250 5.6 ± 0.4 67-dou/har 273.15 0.500 4.4 ± 0.4 67-dou/har 273.15 0.750 3.4 ± 0.4 67-dou/har 298.15 0.250 4.9 ± 0.4 67-dou/har 298.15 0.500 3.9 ± 0.4 67-dou/har 298.15 0.750 3.0 ± 0.4 67-dou/har 303.15 0.250 4.8 ± 0.4 67-dou/har 303.15 0.500 3.8 ± 0.4 67-dou/har 303.15 0.750 2.9 ± 0.4 67-dou/har 323.15 0.250 4.4 ± 0.4 67-dou/har 323.15 0.500 3.5 ± 0.4 67-dou/har 323.15 0.750 2.8 ± 0.4 67-dou/har 348.15 0.250 4.0 ± 0.4 67-dou/har 348.15 0.500 3.3 ± 0.4 67-dou/har 348.15 0.750 2.6 ± 0.4 67-dou/har 373.15 0.250 3.7 ± 0.4 67-dou/har 373.15 0.500 3.0 ± 0.4 67-dou/har 373.15 0.750 2.4 ± 0.3 67-dou/har 398.15 0.250 3.5 ± 0.4 67-dou/har 398.15 0.500 2.8 ± 0.4 67-dou/har 398.15 0.750 2.2 ± 0.3 67-dou/har 423.15 0.250 3.3 ± 0.4 67-dou/har 423.15 0.500 2.6 ± 0.4 67-dou/har 423.15 0.750 2.2 ± 0.3 67-dou/har

T K 448.15 448.15 448.15 473.15 473.15 473.15 498.15 498.15 498.15 523.15 523.15 523.15 548.15 548.15 548.15 573.15 573.15 573.15 598.15 598.15 598.15 623.15 623.15 623.15

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 273.15 5.0 ± 0.4 67-dou/har 298.15 4.6 ± 0.4 67-dou/har 303.15 4.4 ± 0.4 67-dou/har 323.15 4.1 ± 0.4 67-dou/har 348.15 3.7 ± 0.4 67-dou/har 373.15 3.4 ± 0.4 67-dou/har 398.15 3.1 ± 0.4 67-dou/har 423.15 2.9 ± 0.4 67-dou/har

T K 448.15 473.15 498.15 523.15 548.15 573.15 598.15 623.15

C112 ± δC112 103· cm6· mol-2 2.7 ± 0.4 2.7 ± 0.4 2.6 ± 0.4 2.6 ± 0.4 2.5 ± 0.3 2.5 ± 0.3 2.6 ± 0.4 2.6 ± 0.4

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 3.5 ± 0.4 67-dou/har 298.15 3.0 ± 0.4 67-dou/har 303.15 3.0 ± 0.4 67-dou/har 323.15 2.9 ± 0.4 67-dou/har 348.15 2.7 ± 0.4 67-dou/har 373.15 2.5 ± 0.3 67-dou/har

T K 398.15 423.15 448.15 473.15 498.15 523.15

C122 ± δC122 103· cm6· mol-2 2.4 ± 0.3 2.3 ± 0.3 2.2 ± 0.3 2.1 ± 0.3 2.1 ± 0.3 2.0 ± 0.3

___________

___________

___________

___________________________________________________________

__________________________________________________________

__________________________________________________________

___________

___________

___________

x2

Cm ± δCm 103· cm6· mol-2 3.1 ± 0.4 2.5 ± 0.4 2.1 ± 0.3 3.0 ± 0.4 2.4 ± 0.3 2.0 ± 0.3 2.9 ± 0.4 2.4 ± 0.3 1.9 ± 0.3 2.9 ± 0.4 2.3 ± 0.3 1.9 ± 0.3 2.8 ± 0.4 2.2 ± 0.3 1.8 ± 0.3 2.7 ± 0.4 2.2 ± 0.3 1.8 ± 0.3 2.7 ± 0.4 2.2 ± 0.3 1.7 ± 0.3 2.7 ± 0.4 2.1 ± 0.3 1.7 ± 0.3

Ref.

___________________________________________________________

0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750 0.250 0.500 0.750

67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har

Ref.

__________________________________________________________

67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har

Ref.

__________________________________________________________

67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har 67-dou/har cont.

Landolt-Börnstein New Series IV/21B

260

3 Mixtures of Two Organic Compounds

Tetrafluoromethane + Methane (cont.) Table 7. (cont.) T C122 ± δC122 K 103· cm6· mol-2 548.15 1.9 ± 0.3 573.15 1.8 ± 0.3 ___________

Ref.

T K 598.15 623.15 ___________

__________________________________________________________

67-dou/har 67-dou/har

Tetrafluoromethane Hexafluoroethane

[75-73-0] [76-16-4] T K 373.15

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.500 15 ± 1 69-dan/kno

T K 373.15

______________________________________________

___________

________________________________________

Tetrafluoromethane Ethane

___________

___________

[75-73-0] [74-84-0]

B12 ± δB12 cm3· mol-1 -70.0 ± 4.0

x1 0.500

T K 320.00 323.15

x1

Tetrafluoromethane Octafluoropropane

[75-73-0] [76-19-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -179 ± 20 69-dan/kno ___________

______________________________________________

___________

T K 373.15

69-dan/kno

523

Ref.

______________________________________________

86-dun/big 71-dan/kno

BE ± δBE cm3· mol-1 33.2 ± 0.4 27.0 ± 1.0

Ref.

________________________________________

0.500 0.500

CF4 C3F8

___________

Ref.

MW = 88.00 MW = 30.07

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 38.3 ± 0.4 86-dun/big 300.00 0.500 35.8 ± 0.4 86-dun/big ________________________________________

69-dan/kno

BE ± δBE cm3· mol-1 12 ± 1

B12 ± δB12 cm3· mol-1 -81.5 ± 2.9 -87.0 ± 5.0

___________

Ref.

________________________________________

CF4 C2H6

___________

522

______________________________________________

T K 320.00 323.15

______________________________________________

67-dou/har 67-dou/har

MW = 88.00 MW = 138.01

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 290.00 -107.7 ± 3.7 86-dun/big 300.00 -98.6 ± 3.5 86-dun/big ___________

Ref.

__________________________________________________________

CF4 C2F6

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -120.0 ± 4.0 69-dan/kno ___________

C122 ± δC122 103· cm6· mol-2 1.7 ± 0.3 1.6 ± 0.3

86-dun/big 71-dan/kno

MW = 88.00 MW = 188.02

B12 ± δB12 cm3· mol-1 -113 ± 20

524

Ref.

______________________________________________

69-dan/kno

cont. Landolt-Börnstein New Series IV/21B

261

3 Mixtures of Two Organic Compounds

Tetrafluoromethane + Octafluoropropane (cont.) Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 323.15 0.500 74 ± 2 69-dan/kno ___________

________________________________________

Tetrafluoromethane Decafluorobutane

T K 373.15 ___________

[75-73-0] [355-25-9] T K 373.15

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.500 183 ± 4 69-dan/kno

T K 373.15

______________________________________________

___________

________________________________________

Tetrafluoromethane Butane

___________

___________

[75-73-0] [106-97-8]

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.500 166 ± 1 71-dan/kno

___________

___________

___________

T K

________________________________________

[75-73-0] [678-26-2] T K 373.15

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 323.15 0.500 370 ± 6 69-dan/kno

T K 373.15

___________

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

________________________________________

___________

69-dan/kno

MW = 88.00 MW = 238.03

B12 ± δB12 cm3· mol-1 -141 ± 20

x1

525

Ref. 69-dan/kno

BE ± δBE cm3· mol-1 127 ± 2

Ref.

________________________________________

0.500

69-dan/kno

MW = 88.00 MW = 58.12 B12 ± δB12 cm3· mol-1

526

Ref.

______________________________________________

BE ± δBE cm3· mol-1

x1

Ref.

________________________________________

CF4 C5F12

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -259 ± 30 69-dan/kno

Ref.

______________________________________________

T K

______________________________________________

Tetrafluoromethane Dodecafluoropentane

0.500

CF4 C4H10

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -166 ± 5 71-dan/kno

BE ± δBE cm3· mol-1 54 ± 2 ________________________________________

CF4 C4F10

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -224 ± 25 69-dan/kno ___________

x1

MW = 88.00 MW = 288.03

B12 ± δB12 cm3· mol-1 -173 ± 30

527

Ref.

______________________________________________

x1

___________

69-dan/kno

BE ± δBE cm3· mol-1 245 ± 11

Ref.

________________________________________

0.500

69-dan/kno

262

3 Mixtures of Two Organic Compounds

Tetrafluoromethane 2,2-Dimethylpropane

[75-73-0] [463-82-1]

CF4 C5H12

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -234 ± 15 71-dan/kno

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 323.15 0.500 168 ± 10 71-dan/kno

___________

___________

___________

T K

________________________________________

Tetrafluoromethane Tetradecafluorohexane

[75-73-0] [355-42-0] T K 373.15

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.500 614 ± 10 69-dan/kno

T K 373.15

______________________________________________

___________

________________________________________

Tetrafluoromethane Hexane

___________

___________

[75-73-0] [110-54-3]

___________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 323.15 0.500 537 ± 10 71-dan/kno

___________

___________

___________

Chlorodifluoromethane Trifluoromethane

[75-45-6] [75-46-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 300.30 -261.0 ± 10.0 76-bou/jad ___________

T K

________________________________________

______________________________________________

MW = 88.00 MW = 338.04

B12 ± δB12 cm3· mol-1 -196 ± 38

T K 300.31

529

Ref.

______________________________________________

x1

69-dan/kno

BE ± δBE cm3· mol-1 390 ± 8

Ref.

________________________________________

0.500

69-dan/kno

MW = 88.00 MW = 86.18 B12 ± δB12 cm3· mol-1

530

Ref.

______________________________________________

BE ± δBE cm3· mol-1

x1

Ref.

________________________________________

CHClF2 CHF3

___________

Ref.

________________________________________

T K

______________________________________________

Ref.

BE ± δBE cm3· mol-1

x1

CF4 C6H14

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -255 ± 30 71-dan/kno

528

______________________________________________

CF4 C6F14

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -277 ± 35 69-dan/kno ___________

B12 ± δB12 cm3· mol-1

T K

______________________________________________

MW = 88.00 MW = 72.15

MW = 86.47 MW = 70.01

531

B12 ± δB12 Ref. cm3· mol-1 -252.8 ± 10.0 76-bou/jad ______________________________________________

Landolt-Börnstein New Series IV/21B

263

3 Mixtures of Two Organic Compounds

Chlorodifluoromethane [75-45-6] 1,2-Dichloro-1,1,2,2-tetrafluoroethane [76-14-2]

CHClF2

MW = 86.47

C2Cl2F4

MW = 170.92

532

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = - 2.1738 ⋅ 10 + 4.0729 ⋅ 104/(T/K) − 5.2896 ⋅ 107/(T/K)2 (B12 ± 2σest)/cm3· mol-1 -705.2 ± 20 -473.7 ± 15

T/K 250 300

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -337.2 ± 15 -250.5 ± 15

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 243.15 -776 ± 20 -27.1 91-sch/web(z) 253.15 -689 ± 20 -2.7 91-sch/web(z) 263.15 -630 ± 12 0.8 91-sch/web(z) 273.15 -582 ± 12 -0.4 91-sch/web(z) 296.15 -478 ± 8 9.3 91-sch/web(z) 296.15 -472 ± 8 15.3 92-sch/hau(▲) 330.00 -394 ± 10 -10.0 85-has/uem(„) 340.00 -366 ± 10 -6.5 85-has/uem(„) 350.00 -342 ± 10 -4.8 85-has/uem(„) 353.15 -319 ± 15 11.5 92-sch/hau(▲) 360.00 -319 ± 10 -2.2 85-has/uem(„) _________

______________________________________

_____________________________________

T K 370.00 380.00 390.00 400.00 410.00 413.15 420.00 430.00 440.00 473.15 _________

T/K 450 475

(B12 ± 2σest)/cm3· mol-1 -192.4 ± 15 -170.4 ± 15

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -299 ± 10 -1.0 -281 ± 10 -0.1 -265 ± 10 0.1 -250 ± 10 0.5 -236 ± 10 1.1 -225 ± 17 8.0 -224 ± 10 0.6 -213 ± 10 0.1 -202 ± 10 0.4 -165 ± 18 6.9 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 85-has/uem(„) 85-has/uem(„) 85-has/uem(„) 85-has/uem(„) 85-has/uem(„) 92-sch/hau(▲) 85-has/uem(„) 85-has/uem(„) 85-has/uem(„) 92-sch/hau(▲)

60

(B 12 - B 12calc)/cm 3·mol-1

40 20 0 -20 -40 -60 -80 220

260

300

340

380

420

460

500

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Landolt-Börnstein New Series IV/21B

264

3 Mixtures of Two Organic Compounds

Chlorodifluoromethane 1,1-Dichloro-2,2,2-trifluoroethane

[75-45-6] [306-83-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 268.15 -825 ± 25 91-sch/web ___________

______________________________________________

Chlorodifluoromethane 1-Chloro-1,1-difluoroethane

______________________________________________

Chlorodifluoromethane 1,1-Difluoroethane

______________________________________________

Trichloromethane Methane

T K 296.15 353.15 413.15 473.15 ___________

T K 296.15 353.15 413.15 473.15

[67-66-3] [74-82-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -199 ± 7 73-gup/les ___________

______________________________________________

Trichloromethane Ethene

___________

______________________________________________

T K

___________

T K

Ref. 91-sch/web

MW = 86.47 MW = 100.49

B12 ± δB12 cm3· mol-1 -488 ± 6 -321 ± 12 -225 ± 14 -165 ± 17

534

Ref. 92-sch/hau 92-sch/hau 92-sch/hau 92-sch/hau

MW = 86.47 MW = 66.05

B12 ± δB12 cm3· mol-1 -465 ± 5 -293 ± 10 -199 ± 11 -143 ± 12

535

Ref.

______________________________________________

92-sch/hau 92-sch/hau 92-sch/hau 92-sch/hau

MW = 119.38 MW = 16.04

B12 ± δB12 cm3· mol-1

536

Ref.

______________________________________________

CHCl3 C2H4

___________

533

______________________________________________

CHCl3 CH4

[67-66-3] [74-85-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.15 -373 ± 15 73-gup/les

B12 ± δB12 cm3· mol-1 -654 ± 20

CHClF2 C2H4F2

___________

MW = 86.47 MW = 152.93

______________________________________________

CHClF2 C2H3ClF2

[75-45-6] [75-37-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 233.15 -999 ± 15 91-sch/web 253.15 -753 ± 10 91-sch/web 273.15 -593 ± 8 91-sch/web 296.15 -471 ± 5 91-sch/web ___________

T K 296.15 ___________

[75-45-6] [75-68-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 248.15 -789 ± 10 91-sch/web 258.15 -707 ± 9 91-sch/web 273.15 -607 ± 8 91-sch/web 296.15 -494 ± 6 91-sch/web ___________

CHClF2 C2HCl2F3

MW = 119.38 MW = 28.05

B12 ± δB12 cm3· mol-1

537

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

265

3 Mixtures of Two Organic Compounds

Trichloromethane Methyl methanoate

[67-66-3] [107-31-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -1511 ± 50 59-lam/cla 350.20 -864 ± 50 59-lam/cla ___________

______________________________________________

Trichloromethane Dimethyl ether

T K 368.20 ___________

[67-66-3] [115-10-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 333.20 -930 ± 27 81-lan/wor 343.20 -825 ± 25 81-lan/wor 353.20 -735 ± 30 81-lan/wor ___________

______________________________________________

Trichloromethane Ethanol

___________

[67-66-3] [64-17-5]

______________________________________________

Trichloromethane Propanone

[67-66-3] [67-64-1]

MW = 119.38 MW = 60.05

B12 ± δB12 cm3· mol-1 -723 ± 50

T K

Ref. 59-lam/cla

MW = 119.38 MW = 46.07

B12 ± δB12 cm3· mol-1 -660 ± 21 -600 ± 21 -500 ± 18

539

Ref.

______________________________________________

CHCl3 C2H6O

___________

538

______________________________________________

CHCl3 C2H6O

T K 363.20 373.20 393.20

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -2180 ± 65 73-mar/bai ___________

CHCl3 C2H4O2

81-lan/wor 81-lan/wor 81-lan/wor

MW = 119.38 MW = 46.07

B12 ± δB12 cm3· mol-1

540

Ref.

______________________________________________

CHCl3 C3H6O

MW = 119.38 MW = 58.08

541

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = - 1.6239 ⋅ 104 + 1.2491 ⋅ 107/(T/K) − 2.5216 ⋅ 109/(T/K)2 T/K 300 320

(B12 ± 2σest)/cm3· mol-1 -2620.1 ± 200 -1829.6 ± 150

T/K 340 360

(B12 ± 2σest)/cm3· mol-1 -1313.9 ± 100 -998.6 ± 100

T/K 380 400

(B12 ± 2σest)/cm3· mol-1 -830.6 ± 80 -771.5 ± 70

cont. Landolt-Börnstein New Series IV/21B

266

3 Mixtures of Two Organic Compounds

Trichloromethane + Propanone (cont) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.00 -2623 ± 181 95 80-may/wil(„) 298.00 -2620 ± 200 98 80-pas/han(▲) 308.00 -2179 ± 159 86 80-may/wil(„) 308.00 -2180 ± 200 85 80-pas/han(▲) 323.00 -1706 ± 135 31 80-may/wil(„) 323.00 -1705 ± 90 32 80-pas/han(▲) 323.30 -1735 ± 40 -7 81-doy/hut(†) 327.80 -1543 ± 34 57 81-doy/hut(†) 333.20 -2005 ± 60 -541 61-zaa/kol-11 333.20 -1439 ± 23 25 81-doy/hut(†) 336.50 -1358 ± 20 30 81-doy/hut(†) 338.20 -1319 ± 17 32 81-doy/hut(†) 343.20 -1300 ± 40 -48 61-zaa/kol-1(z) 343.20 -1243 ± 17 9 81-doy/hut(†) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 348.00 348.00 353.20 358.15 358.15 363.20 373.00 373.00 373.20 378.20 383.20 393.20 393.20 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -1207 ± 110 -40 -1212 ± 50 -45 -1087 ± 15 0 -1118 ± 100 -97 -1130 ± 100 -109 -971 ± 15 -8 -896 ± 95 -21 -904 ± 20 -29 -866 ± 17 8 -819 ± 14 22 -995 ± 30 -180 -930 ± 28 -149 -712 ± 13 69 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 80-may/wil(„) 80-pas/han(▲) 81-doy/hut(†) 89-abu/ver-1(Δ) 89-abu/ver-1(Δ) 81-doy/hut(†) 80-may/wil(„) 80-pas/han(▲) 81-doy/hut(†) 81-doy/hut(†) 61-zaa/kol-1(z) 61-zaa/kol-1(z) 81-doy/hut(†)

(B 12 - B 12calc)/cm3·mol-1

300 200 100 0 -100 -200 -300 280

300

320

340 T /K

360

380

400

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. T x1 Bm ± δBm Ref. K cm3· mol-1 358.15 0.500 -990 ± 50 89-abu/ver-1 ___________

__________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 298.00 0.500 -1000 ± 100 80-pas/han 308.00 0.500 -743 ± 20 80-pas/han 323.00 0.500 -484 ± 5 80-pas/han ___________

________________________________________

T K 358.15

x1

___________

T K 348.00 373.00 ___________

Bm ± δBm cm3· mol-1 -1003 ± 50

Ref.

BE ± δBE cm3· mol-1 -262 ± 2 -144 ± 2

Ref.

__________________________________________

0.500

x1

89-abu/ver-1

________________________________________

0.500 0.500

80-pas/han 80-pas/han Landolt-Börnstein New Series IV/21B

267

3 Mixtures of Two Organic Compounds

Trichloromethane Methyl ethanoate

[67-66-3] [79-20-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -1615 ± 50 59-lam/cla 338.20 -1475 ± 50 59-lam/cla ___________

______________________________________________

Trichloromethane Propyl methanoate

______________________________________________

Trichloromethane Ethyl ethanoate

______________________________________________

Trichloromethane Diethyl ether

MW = 119.38 MW = 74.08

B12 ± δB12 cm3· mol-1 -1333 ± 50 -1240 ± 50

T K 353.20 368.20 ___________

T K 353.20 368.20

[67-66-3] [60-29-7]

Ref. 59-lam/cla 59-lam/cla

MW = 119.38 MW = 88.11

B12 ± δB12 cm3· mol-1 -1321 ± 50 -1133 ± 50

543

Ref.

______________________________________________

CHCl3 C4H8O2

___________

542

______________________________________________

CHCl3 C4H8O2

[67-66-3] [141-78-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.20 -2150 ± 50 59-lam/cla 338.20 -1720 ± 50 59-lam/cla ___________

T K 353.20 368.20 ___________

[67-66-3] [110-74-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 324.20 -1890 ± 50 59-lam/cla 335.20 -1667 ± 50 59-lam/cla ___________

CHCl3 C3H6O2

59-lam/cla 59-lam/cla

MW = 119.38 MW = 88.11

B12 ± δB12 cm3· mol-1 -1495 ± 50 -1380 ± 50

544

Ref.

______________________________________________

CHCl3 C4H10O

59-lam/cla 59-lam/cla

MW = 119.38 MW = 74.12

545

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = - 4.1677 ⋅ 103 + 3.8019 ⋅ 106/(T/K) − 9.5245 ⋅ 108/(T/K)2 T/K 300 320

(B12 ± 2σest)/cm3· mol-1 -2077.5 ± 100 -1588.0 ± 100

T/K 340 360

(B12 ± 2σest)/cm3· mol-1 -1224.8 ± 100 -956.0 ± 100

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 323.20 -1504 ± 55 18 81-doy/may(z) 326.20 -1520 ± 50 -56 52-fox/lam(„) 333.20 -1321 ± 52 15 81-doy/may(z) 338.00 -1290 ± 50 -34 52-fox/lam(„) _________

______________________________________

_____________________________________

T K 338.20 352.00 353.20 363.00 _________

T/K 380 400

(B12 ± 2σest)/cm3· mol-1 -758.6 ± 100 -615.8 ± 100

Bexp ± δB Bexp - Bcalc Ref. (Symbol cm3· mol-1 cm3· mol-1 in Fig. 1) -1243 ± 53 10 81-doy/may(z) -1030 ± 50 24 52-fox/lam(„) -1054 ± 46 -16 81-doy/may(z) -870 ± 50 52 52-fox/lam(„) ______________________________________

_____________________________________

cont. Landolt-Börnstein New Series IV/21B

268

3 Mixtures of Two Organic Compounds

Trichloromethane + Diethyl ether (cont) Table 2. cont. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 363.20 -954 ± 45 -34 81-doy/may(z) 378.20 -836 ± 42 -62 81-doy/may(z) _________

______________________________________

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 393.00 -500 ± 50 160 393.20 -739 ± 38 -80

_____________________________________

_________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 52-fox/lam(„) 81-doy/may(z)

250

(B 12 - B 12calc)/cm3·mol-1

200 150 100 50 0 -50 -100 -150 300

310

320

330

340

350

360

370

380

390

400

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Trichloromethane Diethylamine

[67-66-3] [109-89-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -2063 ± 50 59-lam/cla ___________

______________________________________________

Trichloromethane Benzene

CHCl3 C4H11N

T K 336.70

[67-66-3] [71-43-2]

___________

MW = 119.38 MW = 73.14

B12 ± δB12 cm3· mol-1 -1786 ± 50

546

Ref.

______________________________________________

CHCl3 C6H6

59-lam/cla

MW = 119.38 MW = 78.11

547

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.5715 ⋅ 103 − 9.3146 ⋅ 105/(T/K) T/K 350 370

(B12 ± 2σest)/cm3· mol-1 -1089.8 ± 80 -946.0 ± 70

T/K 390 410

(B12 ± 2σest)/cm3· mol-1 -816.9 ± 50 -700.4 ± 30

T/K 430

(B12 ± 2σest)/cm3· mol-1 -594.7 ± 30 cont. Landolt-Börnstein New Series IV/21B

269

3 Mixtures of Two Organic Compounds

Trichloromethane + Benzene (cont) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 353.15 -1133 ± 40 -67 65-zaa/bel(„) 353.20 -1010 ± 30 56 98-wor/joh(z) 363.15 -1048 ± 40 -55 65-zaa/bel(„) 363.20 -936 ± 30 57 98-wor/joh(z) 373.15 -994 ± 30 -69 65-zaa/bel(„) 373.20 -871 ± 30 53 98-wor/joh(z) _________

______________________________________

_____________________________________

T K 383.15 383.20 393.20 403.20 413.20 423.20 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -943 ± 30 -83 -813 ± 30 46 -761 ± 30 36 -715 ± 30 24 -674 ± 30 9 -636 ± 30 -7 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 65-zaa/bel(„) 98-wor/joh(z) 98-wor/joh(z) 98-wor/joh(z) 98-wor/joh(z) 98-wor/joh(z)

100

3

(B 12 - B 12calc)/cm ·mol

-1

50

0

-50

-100

-150 350

360

370

380

390 T /K

400

410

420

430

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Trichloromethane Cyclohexane

[67-66-3] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -844 ± 30 98-wor/joh 363.20 -798 ± 30 98-wor/joh 373.20 -749 ± 30 98-wor/joh 383.20 -697 ± 30 98-wor/joh ___________

Landolt-Börnstein New Series IV/21B

______________________________________________

CHCl3 C6H12

T K 393.20 403.20 413.20 423.20 ___________

MW = 119.38 MW = 84.16

B12 ± δB12 cm3· mol-1 -665 ± 30 -625 ± 30 -595 ± 30 -568 ± 30

Ref.

______________________________________________

98-wor/joh 98-wor/joh 98-wor/joh 98-wor/joh

548

270

3 Mixtures of Two Organic Compounds

Trichloromethane Hexane

[67-66-3] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.15 -1230 ± 37 73-mar/bai 326.20 -1190 ± 50 52-fox/lam ___________

______________________________________________

Trichloromethane Triethylamine

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 308.00 0.500 -1690 ± 100 80-pas/han 323.00 0.500 -630 ± 100 80-pas/han ___________

________________________________________

Dichloromethane Chloroethane

______________________________________________

Dichloromethane Benzene

T K 348.00 373.00 ___________

T K 348.00 373.00 ___________

B12 ± δB12 cm3· mol-1 -960 ± 50

___________

549

Ref.

______________________________________________

52-fox/lam

MW = 119.38 MW = 101.19

B12 ± δB12 cm3· mol-1 -1340 ± 50 -1030 ± 50

550

Ref.

______________________________________________

80-pas/han 80-pas/han

BE ± δBE cm3· mol-1 -256 ± 3 -118 ± 6

x1

Ref.

________________________________________

0.500 0.500

CH2Cl2 C2H5Cl

T K 333.20

[75-09-2] [71-43-2]

MW = 119.38 MW = 86.18

CHCl3 C6H15N

[75-09-2] [75-00-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 303.20 -590 ± 14 68-rae 313.20 -567 ± 21 68-rae ___________

T K 352.00 ___________

[67-66-3] [121-44-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.00 -3170 ± 150 80-pas/han 323.00 -1960 ± 80 80-pas/han ___________

CHCl3 C6H14

80-pas/han 80-pas/han

MW = 84.93 MW = 64.51

B12 ± δB12 cm3· mol-1 -469 ± 14

551

Ref.

______________________________________________

CH2Cl2 C6H6

68-rae

MW = 84.93 MW = 78.11

552

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = - 5.7315 ⋅ 102 + 5.2812 ⋅ 105/(T/K) − 2.1972 ⋅ 108/(T/K)2 T/K 350 370

(B12 ± 2σest)/cm3· mol-1 -857.9 ± 35 -750.8 ± 35

T/K 390 410

(B12 ± 2σest)/cm3· mol-1 -663.6 ± 35 -592.1 ± 35

T/K 430 450

(B12 ± 2σest)/cm3· mol-1 -533.3 ± 35 -484.6 ± 35

cont. Landolt-Börnstein New Series IV/21B

271

3 Mixtures of Two Organic Compounds

Dichloromethane + Benzene (cont) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 353.20 -840 ± 35 -0.8 98-wor/joh(‹) 363.20 -784 ± 35 0.7 98-wor/joh(‹) 373.20 -735 ± 35 0.6 98-wor/joh(‹) 383.20 -691 ± 35 0.3 98-wor/joh(‹) 393.20 -651 ± 35 0.2 98-wor/joh(‹) 403.20 -615 ± 35 -0.1 98-wor/joh(‹) _________

______________________________________

_____________________________________

T K 413.20 423.20 433.20 443.20 453.20 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -582 ± 35 -0.1 -553 ± 35 -1.0 -525 ± 35 -0.1 -500 ± 35 0.1 -477 ± 35 0.6 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 98-wor/joh(‹) 98-wor/joh(‹) 98-wor/joh(‹) 98-wor/joh(‹) 98-wor/joh(‹)

40

-1

10

(B 12 - B 12calc)/cm ·mol

20

3

30

0 -10 -20 -30 -40 350

370

390

410

430

450

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Dichloromethane Cyclohexane

[75-09-2] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -619 ± 35 98-wor/joh 363.20 -593 ± 35 98-wor/joh 373.20 -588 ± 35 98-wor/joh 383.20 -521 ± 35 98-wor/joh 393.20 -495 ± 35 98-wor/joh 403.20 -474 ± 35 98-wor/joh ___________

Landolt-Börnstein New Series IV/21B

______________________________________________

CH2Cl2 C6H12

T K 413.20 423.20 433.20 443.20 453.20 ___________

MW = 84.93 MW = 84.16

B12 ± δB12 cm3· mol-1 -448 ± 35 -422 ± 35 -400 ± 35 -392 ± 35 -372 ± 35

Ref.

______________________________________________

98-wor/joh 98-wor/joh 98-wor/joh 98-wor/joh 98-wor/joh

553

272

3 Mixtures of Two Organic Compounds

Difluoromethane Pentafluoroethane

[75-10-5] [354-33-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 338.15 -225.2 ± 2.0 94-web/def 353.15 -199.0 ± 2.0 94-web/def ___________

______________________________________________

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 310.00 0.500 -301.0 ± 5.0 96-zha/sat 310.00 0.700 -288.4 ± 5.0 96-zha/sat 320.00 0.367 -294.4 ± 9.2 96-kiy/tak 320.00 0.606 -279.2 ± 8.8 96-kiy/tak 320.00 0.698 -264.2 ± 11.3 96-sat/kiy 320.00 0.776 -262.8 ± 8.0 96-sat/kiy 320.00 0.902 -254.3 ± 8.0 96-sat/kiy 320.00 0.500 -276.8 ± 4.0 96-zha/sat 320.00 0.700 -265.0 ± 4.0 96-zha/sat 330.00 0.367 -260.5 ± 8.3 96-kiy/tak 330.00 0.606 -251.9 ± 8.1 96-kiy/tak 330.00 0.698 -244.1 ± 7.0 96-sat/kiy 330.00 0.776 -242.2 ± 8.0 96-sat/kiy 330.00 0.902 -235.0 ± 7.0 96-sat/kiy 330.00 0.500 -255.1 ± 4.0 96-zha/sat 330.00 0.700 -244.1 ± 4.0 96-zha/sat 338.15 0.546 -230.7 ± 1.0 94-web/def 340.00 0.367 -241.3 ± 7.8 96-kiy/tak 340.00 0.606 -228.1 ± 7.4 96-kiy/tak 340.00 0.698 -225.9 ± 7.0 96-sat/kiy 340.00 0.776 -224.3 ± 7.0 96-sat/kiy 340.00 0.902 -217.9 ± 6.0 96-sat/kiy 340.00 0.500 -235.8 ± 3.0 96-zha/sat 340.00 0.700 -225.4 ± 3.0 96-zha/sat 350.00 0.367 -223.7 ± 7.3 96-kiy/tak 350.00 0.606 -213.4 ± 7.0 96-kiy/tak 350.00 0.698 -209.4 ± 6.0 96-sat/kiy 350.00 0.776 -207.7 ± 6.0 96-sat/kiy 350.00 0.902 -202.7 ± 6.0 96-sat/kiy 350.00 0.500 -218.3 ± 3.0 96-zha/sat 350.00 0.700 -208.7 ± 3.0 96-zha/sat 353.15 0.546 -205.1 ± 1.0 94-web/def 360.00 0.367 -208.6 ± 6.8 96-kiy/tak 360.00 0.606 -197.8 ± 6.5 96-kiy/tak 360.00 0.698 -195.6 ± 6.0 96-sat/kiy 360.00 0.776 -193.5 ± 6.0 96-sat/kiy 360.00 0.902 -188.4 ± 6.0 96-sat/kiy 360.00 0.500 -202.6 ± 3.0 96-zha/sat 360.00 0.700 -193.5 ± 3.0 96-zha/sat 370.00 0.367 -194.1 ± 6.4 96-kiy/tak 370.00 0.606 -183.6 ± 6.1 96-kiy/tak 370.00 0.698 -180.6 ± 5.0 96-sat/kiy ___________

__________________________________________

CH2F2 C2HF5

T K 373.15 ___________

T K 370.00 370.00 370.00 370.00 373.15 380.00 380.00 380.00 380.00 380.00 380.00 380.00 390.00 390.00 390.00 390.00 390.00 400.00 400.00 400.00 400.00 400.00 410.00 410.00 410.00 410.00 410.00 420.00 420.00 420.00 420.00 420.00 430.00 430.00 430.00 430.00 430.00 440.00 440.00 440.00 440.00 440.00 ___________

MW = 52.02 MW = 120.02

B12 ± δB12 cm3· mol-1 -171.2 ± 2.0

554

Ref.

______________________________________________

x1

94-web/def

Bm ± δBm cm3· mol-1 -179.4 ± 5.0 -176.6 ± 5.0 -188.4 ± 2.0 -179.8 ± 2.0 -177.3 ± 1.0 -181.6 ± 6.1 -171.2 ± 5.8 -168.5 ± 5.0 -168.7 ± 5.0 -163.8 ± 5.0 -178.4 ± 2.0 -167.4 ± 2.0 -169.7 ± 5.8 -160.0 ± 5.5 -157.8 ± 5.0 -156.5 ± 5.0 -154.3 ± 5.0 -158.6 ± 5.4 -149.9 ± 5.2 -147.9 ± 5.0 -147.2 ± 5.0 -144.5 ± 5.0 -148.3 ± 5.2 -140.2 ± 4.9 -138.4 ± 4.0 -139.0 ± 4.0 -135.4 ± 4.0 -138.9 ± 4.9 -131.2 ± 4.7 -129.8 ± 4.0 -129.3 ± 4.0 -127.0 ± 4.0 -130.1 ± 4.6 -123.1 ± 4.5 -122.0 ± 4.0 -121.5 ± 4.0 -119.6 ± 4.0 -121.9 ± 4.4 -115.3 ± 4.2 -114.7 ± 4.0 -114.2 ± 4.0 -112.6 ± 4.0

Ref.

__________________________________________

0.776 0.902 0.500 0.700 0.546 0.367 0.606 0.698 0.776 0.902 0.500 0.700 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902

96-sat/kiy 96-sat/kiy 96-zha/sat 96-zha/sat 94-web/def 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-zha/sat 96-zha/sat 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy Landolt-Börnstein New Series IV/21B

273

3 Mixtures of Two Organic Compounds

Difluoromethane+ Pentafluoroethane (cont) Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. K 103· cm6· mol-2 310.00 0.500 35.8 ± 5.0 96-zha/sat 310.00 0.700 32.0 ± 5.0 96-zha/sat 320.00 0.367 31.5 ± 9.5 96-kiy/tak 320.00 0.500 32.4 ± 5.0 96-zha/sat 320.00 0.606 29.6 ± 8.9 96-kiy/tak 320.00 0.698 24.6 ± 3.5 96-sat/kiy 320.00 0.700 28.8 ± 4.5 96-zha/sat 320.00 0.776 25.7 ± 4.0 96-sat/kiy 320.00 0.902 23.6 ± 3.5 96-sat/kiy 330.00 0.367 23.4 ± 7.1 96-kiy/tak 330.00 0.500 29.4 ± 4.5 96-zha/sat 330.00 0.606 24.5 ± 7.4 96-kiy/tak 330.00 0.698 23.0 ± 3.5 96-sat/kiy 330.00 0.700 26.1 ± 4.0 96-zha/sat 330.00 0.776 23.9 ± 3.5 96-sat/kiy 330.00 0.902 22.0 ± 3.5 96-sat/kiy 338.15 0.546 19.5 ± 1.0 94-web/def 340.00 0.367 22.1 ± 6.6 96-kiy/tak 340.00 0.500 26.9 ± 4.5 96-zha/sat 340.00 0.606 20.3 ± 6.1 96-kiy/tak 340.00 0.698 21.4 ± 3.2 96-sat/kiy 340.00 0.700 23.7 ± 3.5 96-zha/sat 340.00 0.776 22.4 ± 3.5 96-sat/kiy 340.00 0.902 20.6 ± 3.0 96-sat/kiy 350.00 0.367 20.6 ± 6.2 96-kiy/tak 350.00 0.500 24.7 ± 4.0 96-zha/sat 350.00 0.606 20.1 ± 6.0 96-kiy/tak 350.00 0.698 19.9 ± 3.0 96-sat/kiy 350.00 0.700 21.7 ± 3.5 96-zha/sat 350.00 0.776 20.5 ± 3.0 96-sat/kiy 350.00 0.902 19.3 ± 3.0 96-sat/kiy 353.15 0.546 17.0 ± 1.0 94-web/def 360.00 0.367 19.7 ± 5.9 96-kiy/tak 360.00 0.500 22.8 ± 3.5 96-zha/sat 360.00 0.606 18.5 ± 5.6 96-kiy/tak 360.00 0.698 19.1 ± 3.0 96-sat/kiy 360.00 0.700 19.9 ± 3.0 96-zha/sat 360.00 0.776 19.3 ± 3.0 96-sat/kiy 360.00 0.902 17.7 ± 2.5 96-sat/kiy 370.00 0.367 18.5 ± 5.6 96-kiy/tak 370.00 0.500 21.1 ± 3.0 96-zha/sat 370.00 0.606 16.9 ± 5.1 96-kiy/tak ___________

Landolt-Börnstein New Series IV/21B

___________________________________________________________

T K 370.00 370.00 370.00 370.00 373.15 380.00 380.00 380.00 380.00 380.00 380.00 380.00 390.00 390.00 390.00 390.00 390.00 400.00 400.00 400.00 400.00 400.00 410.00 410.00 410.00 410.00 410.00 420.00 420.00 420.00 420.00 420.00 430.00 430.00 430.00 430.00 430.00 440.00 440.00 440.00 440.00 440.00 ___________

x1

Cm ± δCm 103· cm6· mol-2 16.8 ± 2.5 18.3 ± 3.0 17.4 ± 2.5 17.2 ± 2.5 14.7 ± 1.0 17.9 ± 5.4 19.6 ± 3.0 15.8 ± 4.7 15.7 ± 2.5 16.9 ± 2.5 17.1 ± 2.5 15.4 ± 2.5 17.0 ± 5.1 15.0 ± 4.5 15.0 ± 2.5 15.3 ± 2.5 15.1 ± 2.5 16.2 ± 4.9 14.3 ± 4.3 14.4 ± 2.0 14.9 ± 2.5 14.1 ± 2.0 15.3 ± 4.6 13.5 ± 4.1 13.5 ± 2.0 14.7 ± 2.5 13.2 ± 2.0 14.7 ± 4.4 12.8 ± 3.8 12.9 ± 2.0 13.3 ± 2.0 12.6 ± 2.0 14.0 ± 4.2 12.3 ± 3.7 12.4 ± 2.0 12.8 ± 2.0 12.0 ± 2.0 13.5 ± 4.1 11.7 ± 3.5 12.0 ± 2.0 12.2 ± 2.0 11.5 ± 2.0

Ref.

___________________________________________________________

0.698 0.700 0.776 0.902 0.546 0.367 0.500 0.606 0.698 0.700 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902 0.367 0.606 0.698 0.776 0.902

96-sat/kiy 96-zha/sat 96-sat/kiy 96-sat/kiy 94-web/def 96-kiy/tak 96-zha/sat 96-kiy/tak 96-sat/kiy 96-zha/sat 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy 96-kiy/tak 96-kiy/tak 96-sat/kiy 96-sat/kiy 96-sat/kiy

274

3 Mixtures of Two Organic Compounds

Difluoromethane 1,1,1,2-Tetrafluoroethane

[75-10-5] [811-97-2]

CH2F2 C2H2F4

MW = 52.02 MW = 102.03

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 338.15 -255.5 ± 2.0 94-web/def 353.15 -227.6 ± 2.0 94-web/def

T K 373.15

B12 ± δB12 cm3· mol-1 -195.4 ± 2.0

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 320.00 0.800 -270.3 ± 9.1 94-sat/kiy 330.00 0.600 -267.7 ± 9.0 94-sat/kiy 330.00 0.800 -246.4 ± 8.4 94-sat/kiy 338.15 0.508 -268.6 ± 1.0 94-web/def 340.00 0.250 -292.1 ± 9.8 94-sat/kiy 340.00 0.400 -269.0 ± 9.1 94-sat/kiy 340.00 0.600 -246.0 ± 8.4 94-sat/kiy 340.00 0.800 -226.8 ± 7.8 94-sat/kiy 350.00 0.200 -279.9 ± 9.4 94-sat/kiy 350.00 0.250 -270.6 ± 9.1 94-sat/kiy 350.00 0.400 -248.1 ± 8.4 94-sat/kiy 350.00 0.600 -227.2 ± 7.8 94-sat/kiy 350.00 0.800 -210.5 ± 7.3 94-sat/kiy 353.15 0.508 -239.4 ± 1.0 94-web/def 360.00 0.200 -258.8 ± 8.8 94-sat/kiy 360.00 0.250 -250.9 ± 8.5 94-sat/kiy 360.00 0.400 -230.5 ± 7.9 94-sat/kiy 360.00 0.600 -211.5 ± 7.3 94-sat/kiy 360.00 0.800 -196.8 ± 6.9 94-sat/kiy 370.00 0.200 -241.3 ± 8.2 94-sat/kiy 370.00 0.250 -233.8 ± 8.0 94-sat/kiy 370.00 0.400 -215.0 ± 7.5 94-sat/kiy 370.00 0.600 -197.1 ± 6.9 94-sat/kiy 370.00 0.800 -183.5 ± 6.5 94-sat/kiy 373.15 0.508 -206.3 ± 1.0 94-web/def 380.00 0.200 -224.8 ± 7.7 94-sat/kiy 380.00 0.250 -217.9 ± 7.5 94-sat/kiy 380.00 0.400 -200.8 ± 7.0 94-sat/kiy 380.00 0.600 -184.3 ± 6.5 94-sat/kiy 390.00 0.200 -210.1 ± 7.3 94-sat/kiy

T K 390.00 390.00 390.00 390.00 400.00 400.00 400.00 400.00 400.00 410.00 410.00 410.00 410.00 410.00 420.00 420.00 420.00 420.00 420.00 430.00 430.00 430.00 430.00 430.00 440.00 440.00 440.00 440.00 440.00

x1 0.250 0.400 0.600 0.800 0.200 0.250 0.400 0.600 0.800 0.200 0.250 0.400 0.600 0.800 0.200 0.250 0.400 0.600 0.800 0.200 0.250 0.400 0.600 0.800 0.200 0.250 0.400 0.600 0.800

T

x1

___________

______________________________________________

___________

___________________________________________

Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm ___________

___________

___________

K 320.00 330.00 330.00 338.15 340.00 340.00

0.887 0.746 0.887 0.508 0.395 0.567

6

___________

Ref.

______________________________________________

94-web/def

Bm ± δBm cm3· mol-1 -203.6 ± 7.1 -187.5 ± 6.6 -172.5 ± 6.2 -160.6 ± 5.8 -196.6 ± 6.9 -190.5 ± 6.7 -175.2 ± 6.3 -161.7 ± 5.8 -150.3 ± 5.5 -183.8 ± 6.5 -178.3 ± 6.3 -164.2 ± 5.9 -151.6 ± 5.5 -141.5 ± 5.2 -172.6 ± 6.2 -167.2 ± 6.0 -154.1 ± 5.6 -142.1 ± 5.3 -132.7 ± 5.0 -161.8 ± 5.8 -157.3 ± 5.7 -144.5 ± 5.3 -134.0 ± 5.0 -124.9 ± 4.8 -152.0 ± 5.6 -147.3 ± 5.4 -135.8 ± 5.1 -126.0 ± 4.8 -117.4 ± 4.5

Ref.

__________________________________________

___________________________________________________________

3

555

94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy

Cm ± δCm

Ref.

___________________________________________________________

-2

10 · cm · mol 28.4 ± 1.9 27.5 ± 1.9 23.5 ± 1.6 24.6 ± 2.0 28.9 ± 1.9 26.9 ± 1.8

94-sat/kiy 94-sat/kiy 94-sat/kiy 94-web/def 94-sat/kiy 94-sat/kiy

K 340.00 340.00 350.00 350.00 350.00 350.00

3

0.746 0.887 0.329 0.395 0.567 0.746

6

-2

10 · cm · mol 24.1 ± 1.6 20.7 ± 1.4 27.9 ± 1.9 26.7 ± 1.8 23.7 ± 1.6 21.4 ± 1.5

94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy cont. Landolt-Börnstein New Series IV/21B

275

3 Mixtures of Two Organic Compounds

Difluoromethane + 1,1,1,2-Tetrafluoroethane (cont) Table 5. cont. T x1 K 350.00 0.887 353.15 0.508 360.00 0.329 360.00 0.395 360.00 0.567 360.00 0.746 360.00 0.887 370.00 0.329 370.00 0.395 370.00 0.567 370.00 0.746 370.00 0.887 373.15 0.508 380.00 0.329 380.00 0.395 380.00 0.567 380.00 0.746 390.00 0.329 400.00 0.746 400.00 0.887 ___________

Cm ± δCm 103· cm6· mol-2 19.1 ± 1.4 21.9 ± 2.0 25.2 ± 1.7 24.5 ± 1.7 22.0 ± 1.5 20.0 ± 1.4 18.2 ± 1.3 23.8 ± 1.6 23.0 ± 1.6 20.7 ± 1.4 18.6 ± 1.3 16.9 ± 1.2 18.1 ± 2.0 22.1 ± 1.5 21.4 ± 1.5 19.3 ± 1.4 17.5 ± 1.2 20.7 ± 1.4 15.4 ± 1.1 13.8 ± 1.0

Ref.

Bromomethane Chloromethane

94-sat/kiy 94-web/def 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-web/def 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy

[74-83-9] [74-87-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 296.00 -484.1 ± 2.0 69-lic/sch 307.70 -430.3 ± 2.0 69-lic/sch ___________

______________________________________________

Bromomethane Bromoethane

Landolt-Börnstein New Series IV/21B

______________________________________________

x1

T K 322.80 ___________

0.329 0.395 0.567 0.746 0.887 0.329 0.395 0.567 0.746 0.887 0.329 0.395 0.567 0.746 0.887 0.329 0.395 0.567 0.746 0.887

T K 313.10

Ref. 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy 94-sat/kiy

MW = 94.94 MW = 50.49

B12 ± δB12 cm3· mol-1 -381.1 ± 2.0

556

Ref.

______________________________________________

CH3Br C2H5Br

___________

Cm ± δCm 103· cm6· mol-2 18.1 ± 1.3 17.6 ± 1.2 15.7 ± 1.1 14.4 ± 1.1 13.2 ± 1.0 17.2 ± 1.2 16.6 ± 1.2 14.8 ± 1.1 13.5 ± 1.0 12.3 ± 0.9 16.1 ± 1.2 15.8 ± 1.1 13.9 ± 1.0 12.9 ± 1.0 11.7 ± 0.9 15.3 ± 1.1 14.8 ± 1.1 13.2 ± 1.0 12.3 ± 0.9 11.1 ± 0.9

___________________________________________________________

CH3Br CH3Cl

[74-83-9] [74-96-4]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 293.10 -1047 ± 41 65-rae/bit ___________

T K 410.00 410.00 410.00 410.00 410.00 420.00 420.00 420.00 420.00 420.00 430.00 430.00 430.00 430.00 430.00 440.00 440.00 440.00 440.00 440.00 ___________

___________________________________________________________

69-lic/sch

MW = 94.94 MW = 108.97

B12 ± δB12 cm3· mol-1 -881 ± 12

Ref.

______________________________________________

65-rae/bit

557

276

3 Mixtures of Two Organic Compounds

Bromomethane Chloroethane

[74-83-9] [75-00-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.20 -436 ± 16 68-rae ___________

______________________________________________

Bromomethane Propane

______________________________________________

Bromomethane Butane

______________________________________________

Bromomethane Pentane

T K 297.00 321.00 ___________

T K 297.00 321.00

[74-83-9] [109-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.10 -765 ± 38 65-rae/bit ___________

Chloromethane Ethane

[74-87-3] [74-84-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -206.6 ± 9.6 85-eub/kre 348.15 -171.1 ± 4.6 85-eub/kre 373.15 -148.6 ± 2.4 85-eub/kre 398.15 -126.3 ± 1.4 85-eub/kre ___________

T K

______________________________________________

T K 423.15 448.15 473.15

Ref. 68-rae

MW = 94.94 MW = 44.10

B12 ± δB12 cm3· mol-1 -411 ± 31 -356 ± 28

559

Ref. 63-kap/lun 63-kap/lun

MW = 94.94 MW = 58.12

B12 ± δB12 cm3· mol-1 -546 ± 37 -459 ± 33

560

Ref.

______________________________________________

63-kap/lun 63-kap/lun

MW = 94.94 MW = 72.15

B12 ± δB12 cm3· mol-1

561

Ref.

______________________________________________

CH3Cl C2H6

___________

558

______________________________________________

CH3Br C5H12

___________

______________________________________________

B12 ± δB12 cm3· mol-1 -397 ± 7

CH3Br C4H10

___________

MW = 94.94 MW = 64.51

______________________________________________

CH3Br C3H8

[74-83-9] [106-97-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 244.00 -915 ± 56 63-kap/lun 273.00 -661 ± 43 63-kap/lun ___________

T K 333.20 ___________

[74-83-9] [74-98-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 244.00 -617 ± 41 63-kap/lun 273.00 -474 ± 34 63-kap/lun ___________

CH3Br C2H5Cl

MW = 50.49 MW = 30.07

B12 ± δB12 cm3· mol-1 -111.5 ± 1.2 -97.9 ± 1.2 -85.6 ± 1.2

562

Ref.

______________________________________________

85-eub/kre 85-eub/kre 85-eub/kre

cont. Landolt-Börnstein New Series IV/21B

277

3 Mixtures of Two Organic Compounds

Chloromethane + Ethane (cont) Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 323.15 0.500 -228.2 ± 3.0 85-eub/kre 348.15 0.500 -190.9 ± 1.0 85-eub/kre 373.15 0.500 -162.4 ± 0.8 85-eub/kre 398.15 0.500 -139.0 ± 0.4 85-eub/kre

T K 423.15 448.15 473.15

Table 5. Experimental Cm values with uncertainty. T x1 Cm ± δCm Ref. K 103· cm6· mol-2 323.15 0.500 28.11 ± 5.06 85-eub/kre 348.15 0.500 16.61 ± 9.42 85-eub/kre 373.15 0.500 12.33 ± 4.54 85-eub/kre 398.15 0.500 9.69 ± 0.20 85-eub/kre

T K 423.15 448.15 473.15

___________

__________________________________________

___________

___________________________________________________________

Chloromethane Propanone

______________________________________________

Chloromethane Benzene

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

T K 376.38 400.72 427.78 ___________

0.500 0.500 0.500

x1

T K 383.20 393.20 403.20 413.20 423.20

Ref. 85-eub/kre 85-eub/kre 85-eub/kre

Cm ± δCm 103· cm6· mol-2 9.32 ± 0.23 8.50 ± 0.25 7.70 ± 0.25

Ref.

___________________________________________________________

0.500 0.500 0.500

85-eub/kre 85-eub/kre 85-eub/kre

MW = 50.49 MW = 58.08

B12 ± δB12 cm3· mol-1 -433 ± 25 -367 ± 25 -315 ± 25

563

Ref.

______________________________________________

CH3Cl C6H6

___________

Bm ± δBm cm3· mol-1 -121.7 ± 0.4 -106.6 ± 0.4 -93.3 ± 0.4

__________________________________________

CH3Cl C3H6O

[74-87-3] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -542 ± 30 98-par/rie 358.20 -527 ± 30 98-par/rie 363.20 -513 ± 30 98-par/rie 368.20 -500 ± 30 98-par/rie 373.20 -488 ± 30 98-par/rie 378.20 -476 ± 30 98-par/rie

x1

___________

[74-87-3] [67-64-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -670 ± 25 67-bot/spu 327.05 -649 ± 25 67-bot/spu 352.49 -507 ± 25 67-bot/spu ___________

___________

67-bot/spu 67-bot/spu 67-bot/spu

MW = 50.49 MW = 78.11

B12 ± δB12 cm3· mol-1 -464 ± 30 -442 ± 30 -423 ± 30 -404 ± 30 -387 ± 30

564

Ref.

______________________________________________

98-par/rie 98-par/rie 98-par/rie 98-par/rie 98-par/rie

278

3 Mixtures of Two Organic Compounds

Chloromethane Cyclohexane

[74-87-3] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.20 -383 ± 30 98-par/rie 358.20 -371 ± 30 98-par/rie 363.20 -360 ± 30 98-par/rie 368.20 -349 ± 30 98-par/rie 373.20 -340 ± 30 98-par/rie 378.20 -330 ± 30 98-par/rie ___________

______________________________________________

Iodomethane Diethyl ether

______________________________________________

Nitromethane Propanone

T K 343.20 358.20 ___________

______________________________________________

Nitromethane Benzene

T K 323.20

[75-52-5] [71-43-2]

Nitromethane Cyclohexane

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 373.15 0.500 729 ± 50 83-mar/rog 373.15 0.500 721 ± 50 83-mar/rog ___________

________________________________________

T K 373.15

566

Ref. 62-zaa/kol 62-zaa/kol

MW = 61.04 MW = 58.08

B12 ± δB12 cm3· mol-1 -2679 ± 50

567

Ref. 63-bot/spu

MW = 61.04 MW = 78.11

B12 ± δB12 cm3· mol-1

568

Ref.

______________________________________________

CH3NO2 C6H12

___________

98-par/rie 98-par/rie 98-par/rie 98-par/rie 98-par/rie

_____________________________________________

T K

[75-52-5] [110-82-7]

Ref.

MW = 141.94 MW = 74.12

B12 ± δB12 cm3· mol-1 -570 ± 13 -406 ± 14

___________

______________________________________________

565

______________________________________________

CH3NO2 C6H6

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.20 -1283 ± 25 63-bot/spu ___________

B12 ± δB12 cm3· mol-1 -320 ± 30 -303 ± 30 -287 ± 30 -272 ± 30 -258 ± 30

CH3NO2 C3H6O

___________

MW = 50.49 MW = 84.16

______________________________________________

CH3I C4H10O

[75-52-5] [67-64-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 318.15 -3830 ± 200 60-bro/smi ___________

T K 383.20 393.20 403.20 413.20 423.20 ___________

[74-88-4] [60-29-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.20 -785 ± 27 62-zaa/kol 328.20 -654 ± 12 62-zaa/kol ___________

CH3Cl C6H12

x1

MW = 61.04 MW = 84.16 BE ± δBE cm3· mol-1 738 ± 50

569

Ref.

________________________________________

0.500

83-mar/rog

Landolt-Börnstein New Series IV/21B

279

3 Mixtures of Two Organic Compounds

Methane Methane-d

[74-82-8] [676-49-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 112.65 1.6 ± 0.2 74-fan/van 149.29 1.2 ± 0.1 74-fan/van ___________

______________________________________________

Methane Methane-d2

______________________________________________

Methane Methane-d3

______________________________________________

Methane Methane-d4

Methane Methanol

______________________________________________

T K 197.28 301.84 ___________

___________

570

Ref. 74-fan/van 74-fan/van

MW = 16.04 MW = 18.05

B12 ± δB12 cm3· mol-1 1.8 ± 0.2 1.8 ± 0.2

571

Ref.

______________________________________________

74-fan/van 74-fan/van

MW = 16.04 MW = 19.06

B12 ± δB12 cm3· mol-1 2.8 ± 0.3 2.5 ± 0.3

572

Ref.

______________________________________________

CH4 CD4

T K 167.37 206.43 249.95 300.33

[74-82-8] [67-56-1]

B12 ± δB12 cm3· mol-1 1.2 ± 0.2 0.4 ± 0.3

CH4 CHD3

[74-82-8] [558-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 111.24 5.7 ± 0.2 74-fan/van 122.15 5.4 ± 0.1 74-fan/van 132.25 5.0 ± 0.2 74-fan/van 150.88 4.7 ± 0.2 74-fan/van ___________

T K 196.96 302.01 ___________

MW = 16.04 MW = 17.05

______________________________________________

CH4 CH2D2

[74-82-8] [676-80-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 112.29 4.2 ± 0.1 74-fan/van 149.13 3.4 ± 0.1 74-fan/van ___________

T K 197.49 302.04 ___________

[74-82-8] [676-55-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 112.48 2.9 ± 0.2 74-fan/van 148.91 2.1 ± 0.2 74-fan/van ___________

CH4 CH3D

74-fan/van 74-fan/van

MW = 16.04 MW = 20.07

B12 ± δB12 cm3· mol-1 4.7 ± 0.3 4.1 ± 0.3 3.5 ± 0.2 3.6 ± 0.4

573

Ref.

______________________________________________

CH4 CH4O

74-fan/van 74-fan/van 74-fan/van 74-fan/van

MW = 16.04 MW = 32.04

574

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = - 1.2860 ⋅ 103 + 8.0897 ⋅ 105/(T/K) − 1.3720 ⋅ 108/(T/K)2 cont. Landolt-Börnstein New Series IV/21B

280

3 Mixtures of Two Organic Compounds

Methane + Methanol (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 225 -400.7 ± 15 250 -245.3 ± 15

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -113.9 ± 7 -94.7 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 227.60 -373 ± 9 7.2 80-laz/bre(z) 242.60 -274 ± 20 8.6 93-sch/lan(▲) 250.70 -264 ± 6 -21.9 80-laz/bre(z) 262.00 -189 ± 20 8.0 93-sch/lan(▲) 273.20 -171 ± 10 -7.9 80-laz/bre(z) 282.70 -137 ± 15 4.1 93-sch/lan(▲) _________

______________________________________

(B12 ± 2σest)/cm3· mol-1

T/K

T Bexp ± δB Bexp - Bcalc K cm3· mol-1 cm3· mol-1 288.15 -130 ± 6 0.9 298.15 -114 ± 7 2.1 310.15 -103 ± 4 1.0 323.15 -97 ± 4 -0.5 333.15 -95 ± 2 -1.1

_____________________________________

_________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 72-hem/kin(„) 72-hem/kin(„) 72-hem/kin(„) 72-hem/kin(„) 72-hem/kin(„)

(B 12 - B 12calc)/cm3·mol-1

30 20 10 0 -10 -20 -30 210

230

250

270

290

310

330

350

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Methane Hexafluoroethane

[74-82-8] [76-16-4]

CH4 C2F6

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 323.15 -65 ± 4 71-dan/kno

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.5000 51 ± 1 71-dan/kno

___________

___________

___________

______________________________________________

________________________________________

B12 ± δB12 cm3· mol-1

T K

T K

MW = 16.04 MW = 138.01

575

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1

Ref.

________________________________________

Landolt-Börnstein New Series IV/21B

281

3 Mixtures of Two Organic Compounds

Methane Ethene

[74-82-8] [74-85-1]

CH4 C2H4

MW = 16.04 MW = 28.05

576

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 7.3929 ⋅ 10 − 4.4007 ⋅ 104/(T/K) (B12 ± 2σest)/cm3· mol-1 -109.4 ± 7 -72.8 ± 6

T/K 240 300

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -51.8 ± 5 -36.1 ± 5

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 240.00 -118.1 ± 5 -8.7 77-lee(†) 245.00 -112.8 ± 5 -7.1 77-lee(†) 250.00 -107.8 ± 5 -5.7 77-lee(†) 255.00 -103.1 ± 5 -4.5 77-lee(†) 260.00 -98.6 ± 5 -3.3 77-lee(†) 265.00 -94.4 ± 5 -2.3 77-lee(†) 266.49 -89.9 ± 2.4 1.3 69-mam/mam(„) 266.50 -89.8 ± 5 1.4 69-mcm/edm(▲) 270.00 -90.4 ± 5 -1.3 77-lee(†) 275.00 -86.7 ± 5 -0.6 77-lee(†) 277.60 -78.1 ± 1.8 6.5 69-mam/mam(„) 277.60 -78.6 ± 5 6.0 69-mcm/edm(▲) 280.00 -83.2 ± 5 0.0 77-lee(†) 283.15 -86.0 ± 4 -4.5 93-mce/fan-1(Δ) 285.00 -79.9 ± 5 0.6 77-lee(†) _________

______________________________________

T K 288.70 288.70 288.72 290.00 293.15 298.15 298.20 303.15 313.15 323.15 323.20 333.15 348.20 398.15

_____________________________________

_________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -70.8 ± 5 7.7 -71.5 ± 5 7.0 -70.8 ± 2.4 7.7 -76.8 ± 5 1.0 -81.9 ± 4 -5.7 -78.7 ± 0.3 -5.0 -61.1 ± 0.6 12.5 -76.2 ± 4 -5.0 -71.7 ± 4 -5.1 -64.2 ± 3 -1.9 -54.0 ± 3.8 8.2 -60.3 ± 3 -2.1 -43.8 ± 5 8.7 -36.5 ± 0.2 0.1 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 61-mas/eak(z) 69-mcm/edm(▲) 69-mam/mam(„) 77-lee(†) 93-mce/fan-1(Δ) 81-ohg/miz({) 70-lee/edm(x) 93-mce/fan-1(Δ) 93-mce/fan-1(Δ) 93-mce/fan-1(Δ) 70-lee/edm(x) 93-mce/fan-1(Δ) 70-lee/edm(x) 82-ohg/nak-1(◊)

20

3

(B 12 - B 12calc)/cm ·mol

-1

15 10 5 0 -5 -10 -15 -20 230

250

270

290

310

330

350

370

390

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) cont. Landolt-Börnstein New Series IV/21B

282

3 Mixtures of Two Organic Compounds

Methane + Ethene (cont) Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm K cm3· mol-1 283.15 0.272 -118.9 ± 2.0 93-mce/fan-1 283.15 0.503 94.6 ± 2.0 93-mce/fan-1 283.15 0.703 -74.4 ± 2.0 93-mce/fan-1 293.15 0.278 -110.8 ± 2.0 93-mce/fan-1 293.15 0.490 -88.0 ± 2.0 93-mce/fan-1 293.15 0.702 -70.4 ± 2.0 93-mce/fan-1 303.15 0.505 -79.3 ± 2.0 93-mce/fan-1 303.15 0.693 -64.8 ± 2.0 93-mce/fan-1 313.15 0.273 -96.0 ± 2.0 93-mce/fan-1

T K 313.15 313.15 323.15 323.15 323.15 333.15 333.15 333.15

Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. 3 K 10 · cm6· mol-2 283.15 0.272 5.8 ± 0.5 93-mce/fan-1 283.15 0.503 4.9 ± 0.5 93-mce/fan-1 283.15 0.703 3.7 ± 0.5 93-mce/fan-1 293.15 0.278 5.8 ± 0.5 93-mce/fan-1 293.15 0.490 5.1 ± 0.5 93-mce/fan-1 293.15 0.702 4.0 ± 0.5 93-mce/fan-1 303.15 0.505 4.1 ± 0.5 93-mce/fan-1 303.15 0.693 3.5 ± 0.5 93-mce/fan-1 313.15 0.273 5.1 ± 0.5 93-mce/fan-1

T K 313.15 313.15 323.15 323.15 323.15 333.15 333.15 333.15

___________

___________

__________________________________________

___________________________________________________________

___________

___________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· m6· mol-2 283.15 5.5 ± 0.8 93-mce/fan-1 293.15 5.2 ± 0.8 93-mce/fan-1 303.15 4.8 ± 0.8 93-mce/fan-1

T K 313.15 323.15 333.15

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 283.15 4.6 ± 0.8 93-mce/fan-1 293.15 4.4 ± 0.8 93-mce/fan-1 303.15 4.2 ± 0.8 93-mce/fan-1

T K 313.15 323.15 333.15

___________

___________

__________________________________________________________

__________________________________________________________

___________

___________

x1

Bm ± δBm cm3· mol-1 -78.8 ± 2.0 -60.9 ± 2.0 -91.8 ± 2.0 -67.7 ± 2.0 -55.9 ± 2.0 -84.0 ± 2.0 -58.5 ± 2.0 -67.5 ± 2.0

Ref.

__________________________________________

0.495 0.704 0.262 0.488 0.710 0.264 0.495 0.598

x1

93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1

Cm ± δCm 10 · cm6· mol-2 5.4 ± 0.5 4.0 ± 0.5 5.2 ± 0.5 3.0 ± 0.5 3.9 ± 0.5 4.4 ± 0.5 3.3 ± 0.5 3.7 ± 0.5

Ref.

___________________________________________________________

3

0.495 0.704 0.262 0.488 0.710 0.264 0.495 0.598

C112 ± δC112 103· cm6· mol-2 4.5 ± 0.8 4.2 ± 0.8 3.8 ± 0.8

93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1 93-mce/fan-1

Ref.

__________________________________________________________

C122 ± δC122 103· cm6· mol-2 4.0 ± 0.8 3.8 ± 0.8 3.6 ± 0.8

93-mce/fan-1 93-mce/fan-1 93-mce/fan-1

Ref.

__________________________________________________________

93-mce/fan-1 93-mce/fan-1 93-mce/fan-1

Landolt-Börnstein New Series IV/21B

283

3 Mixtures of Two Organic Compounds

Methane Ethane

[74-82-8] [74-84-0]

CH4 C2H6

MW = 16.04 MW = 30.07

577

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 4.9899 ⋅ 10 − 2.2270 ⋅ 104/(T/K) − 5.8719 ⋅ 106/(T/K)2 T/K 200 250

(B12 ± 2σest)/cm3· mol-1 -208.2 ± 10 -133.1 ± 5

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -89.6 ± 2.0 -61.7 ± 2.0

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 200.00 -206.3 ± 9 1.9 94-est/tru({) 200.00 -207.4 ± 1 0.8 94-tru(„) 215.00 -192.3 ± 2 -11.6 68-hoo/nag( ) 225.00 -163.6 ± 8 1.5 94-est/tru({) 225.00 -163.8 ± 0.8 1.3 94-tru(„) 240.00 -158.2 ± 2 -13.4 68-hoo/nag( ) 240.00 -143.6 ± 0.7 1.2 94-tru(„) 241.10 -141.0 ± 7 2.5 79-wor/lew(†) 250.00 -132.3 ± 7 0.8 94-est/tru({) 250.00 -132.1 ± 0.7 1.0 94-tru(„) 250.60 -130.0 ± 6 2.5 79-wor/lew(†) 262.40 -118.0 ± 6 2.3 79-wor/lew(†) 266.70 -116.0 ± 4 0.2 79-wor/lew(†) 269.20 -112.0 ± 6 1.9 79-wor/lew(†) 273.15 -119.0 ± 5 -8.7 39-mic/ned(‹) 273.15 -111.9 ± 1 -1.6 68-hoo/nag( ) 273.15 -109.5 ± 3 0.8 88-jae/aud(Δ) 273.15 -109.7 ± 1 0.6 95-bla/wei(◊) 275.00 -108.3 ± 6 0.4 94-est/tru({) 275.00 -108.0 ± 0.6 0.7 94-tru(„) 282.20 -105.0 ± 4 -2.2 79-wor/lew(†) 283.15 -101.0 ± 1 1.0 95-bla/wei(◊) 288.70 -96.2 ± 5 1.5 61-mas/eak(–) 293.15 -94.5 ± 3 -0.1 88-jae/aud(Δ) 293.15 -93.4 ± 1 1.0 95-bla/wei(◊) 298.15 -93.0 ± 4 -2.1 68-dan/kno-1(▲) 298.15 -92.9 ± 0.4 -2.0 80-kat/ohg(+) 298.16 -92.0 ± 5 -1.2 39-mic/ned(‹) _________

______________________________________

_____________________________________

T K 298.20 300.00 300.00 300.00 303.15 303.15 303.20 313.15 313.15 313.15 320.00 323.15 323.15 323.15 323.15 325.00 325.00 333.15 333.15 333.15 343.15 348.15 350.00 350.00 373.15 375.00 375.00 _________

T/K 400

(B12 ± 2σest)/cm3· mol-1 -42.5 ± 2.0

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -93.0 ± 4 -2.2 -89.5 ± 5 0.1 -89.1 ± 0.5 0.5 -89.1 ± 0.3 0.5 -88.3 ± 2 -0.8 -86.7 ± 1 0.8 -88.0 ± 5 -0.6 -81.3 ± 2 -0.2 -82.2 ± 2 -1.1 -80.6 ± 1 0.5 -76.7 ± 0.3 0.3 -75.6 ± 5 -0.4 -79.0 ± 5 -3.8 -76.6 ± 2 -1.4 -75.0 ± 1 0.2 -74.5 ± 5 -0.3 -74.0 ± 0.5 0.2 -70.0 ± 2 -0.1 -71.4 ± 2 -1.5 -69.7 ± 1 0.2 -66.6 ± 2 -1.7 -68.0 ± 5 -5.5 -61.9 ± 4.2 -0.2 -61.5 ± 0.5 0.2 -56.0 ± 5 -4.0 -51.4 ± 3.8 -0.2 -51.1 ± 0.5 0.1 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 79-wor/lew(†) 94-est/tru({) 94-tru(„) 96-hou/hol(„) 94-mce/fan(z) 95-bla/wei(◊) 79-wor/lew(†) 88-jae/aud(Δ) 94-mce/fan(z) 95-bla/wei(◊) 96-hou/hol(„) 39-mic/ned(‹) 68-dan/kno-1(▲) 94-mce/fan(z) 95-bla/wei(◊) 94-est/tru({) 94-tru(„) 88-jae/aud(Δ) 94-mce/fan(z) 95-bla/wei(◊) 94-mce/fan(z) 68-dan/kno-1(▲) 94-est/tru({) 94-tru(„) 68-dan/kno-1(▲) 94-est/tru({) 94-tru(„)

cont. Landolt-Börnstein New Series IV/21B

284

3 Mixtures of Two Organic Compounds

Methane + Ethane (cont.) 20 (B12 - B12calc) / cm3.mol-1

15 10 5 0 -5 -10 -15 -20 180

220

260

300

340

380

T/K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm K m3· mol-1 273.16 0.200 -179.5 ± 3.0 39-mic/ned 273.16 0.401 -142.5 ± 3.0 39-mic/ned 273.16 0.601 -108.8 ± 3.0 39-mic/ned 273.16 0.801 -79.0 ± 3.0 39-mic/ned 298.16 0.200 -149.8 ± 3.0 39-mic/ned 298.16 0.401 -118.6 ± 3.0 39-mic/ned 298.16 0.601 -90.7 ± 3.0 39-mic/ned 298.16 0.801 -64.7 ± 3.0 39-mic/ned 300.00 0.000 -182.7 ± 0.1 96-hou/hol 300.00 0.306 -129.9 ± 0.1 96-hou/hol 300.00 0.500 -100.9 ± 0.1 96-hou/hol 300.00 0.701 -74.4 ± 0.1 96-hou/hol 300.00 1.000 -42.2 ± 0.0 96-hou/hol 303.15 0.292 -128.0 ± 7.0 94-mce/fan 303.15 0.499 -99.8 ± 5.0 94-mce/fan 303.15 0.595 -86.2 ± 4.0 94-mce/fan 313.15 0.269 -124.9 ± 6.0 94-mce/fan 313.15 0.471 -97.5 ± 5.0 94-mce/fan ___________

__________________________________________

T K 313.15 320.00 320.00 320.00 320.00 320.00 323.15 323.15 323.15 323.16 323.16 323.16 323.16 333.15 333.15 333.15 343.15 ___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T T BE ± δBE 3 -1 K cm · mol K 298.15 0.500 21 ± 1 68-dan/kno-1 348.15 323.15 0.500 17 ± 2 68-dan/kno-1 373.15 ___________

________________________________________

___________

x1

Bm ± δBm cm3· mol-1 -77.2 ± 3.5 -159.3 ± 0.1 -112.6 ± 0.0 -87.1 ± 0.0 -63.8 ± 0.1 -35.3 ± 0.0 -108.8 ± 5.5 -86.4 ± 4.0 -70.0 ± 3.0 -125.4 ± 3.0 -98.5 ± 3.0 -74.7 ± 3.0 -53.0 ± 3.0 -101.3 ± 5.0 -79.4 ± 3.0 -58.3 ± 2.5 -76.5 ± 4.0

Ref.

__________________________________________

0.612 0.000 0.306 0.500 0.701 1.000 0.330 0.483 0.624 0.200 0.401 0.601 0.801 0.330 0.512 0.699 0.488

x1

BE ± δBE cm3· mol-1 13 ± 1 12 ± 1

94-mce/fan 96-hou/hol 96-hou/hol 96-hou/hol 96-hou/hol 96-hou/hol 94-mce/fan 94-mce/fan 94-mce/fan 39-mic/ned 39-mic/ned 39-mic/ned 39-mic/ned 94-mce/fan 94-mce/fan 94-mce/fan 94-mce/fan

Ref.

________________________________________

0.500 0.500

68-dan/kno-1 68-dan/kno-1 cont. Landolt-Börnstein New Series IV/21B

285

3 Mixtures of Two Organic Compounds

Methane + Ethane (cont.) Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 300.00 0.000 10.60 ± 0.01 96-hou/hol 300.00 0.306 7.30 ± 0.01 96-hou/hol 300.00 0.500 5.60 ± 0.01 96-hou/hol 300.00 0.701 4.00 ± 0.02 96-hou/hol 300.00 1.000 2.40 ± 0.01 96-hou/hol 303.15 0.292 6.80 ± 0.80 94-mce/fan 303.15 0.499 5.70 ± 0.70 94-mce/fan 303.15 0.595 4.80 ± 0.60 94-mce/fan 313.15 0.269 7.50 ± 0.80 94-mce/fan 313.15 0.471 5.70 ± 0.70 94-mce/fan 313.15 0.612 4.40 ± 0.60 94-mce/fan 320.00 0.000 9.70 ± 0.02 96-hou/hol

T K 320.00 320.00 320.00 320.00 323.15 323.15 323.15 333.15 333.15 333.15 343.15

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 273.15 4.5 ± 0.30 88-jae/aud 273.15 4.3 ± 1.00 95-bla/wei 283.15 4.6 ± 1.00 95-bla/wei 293.15 4.1 ± 0.30 88-jae/aud 293.15 4.7 ± 1.00 95-bla/wei 300.00 3.8 ± 0.40 96-hou/hol 303.15 3.5 ± 0.35 94-mce/fan 303.15 4.6 ± 1.00 95-bla/wei 313.15 3.7 ± 0.30 88-jae/aud

T K 313.15 313.15 320.00 323.15 323.15 333.15 333.15 333.15

C112 ± δC112 103· cm6· mol-2 4.4 ± 1.00 3.5 ± 0.35 3.6 ± 0.40 4.1 ± 1.00 3.6 ± 0.35 3.5 ± 0.30 3.5 ± 0.35 3.7 ± 1.00

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 273.15 7.1 ± 0.7 88-jae/aud 273.15 8.0 ± 1.0 95-bla/wei 283.15 5.8 ± 1.0 95-bla/wei 293.15 6.8 ± 0.7 88-jae/aud 293.15 4.4 ± 1.0 95-bla/wei 300.00 6.8 ± 0.4 96-hou/hol 303.15 7.2 ± 0.3 94-mce/fan 303.15 3.6 ± 1.0 95-bla/wei 313.15 6.4 ± 0.7 88-jae/aud

T K 313.15 313.15 320.00 323.15 323.15 333.15 333.15 333.15

C122 ± δC122 103· cm6· mol-2 6.8 ± 0.3 3.5 ± 1.0 5.9 ± 0.4 6.3 ± 0.3 3.9 ± 1.0 5.7 ± 0.7 6.2 ± 0.3 4.8 ± 1.0

___________

___________

___________

___________________________________________________________

__________________________________________________________

__________________________________________________________

Methane Ethanol

Landolt-Börnstein New Series IV/21B

___________

___________

[74-82-8] [64-17-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -122 ± 2 73-gup/les 323.15 -107 ± 3 73-gup/les ___________

___________

______________________________________________

x1

T K 348.15

Ref.

3

0.306 0.500 0.701 1.000 0.330 0.483 0.624 0.331 0.512 0.699 0.488

96-hou/hol 96-hou/hol 96-hou/hol 96-hou/hol 94-mce/fan 94-mce/fan 94-mce/fan 94-mce/fan 94-mce/fan 94-mce/fan 94-mce/fan

Ref.

__________________________________________________________

95-bla/wei 94-mce/fan 96-hou/hol 95-bla/wei 94-mce/fan 88-jae/aud 94-mce/fan 95-bla/wei

Ref.

__________________________________________________________

CH4 C2H6O

___________

Cm ± δCm 10 · cm6· mol-2 6.60 ± 0.01 5.10 ± 0.01 3.70 ± 0.01 2.30 ± 0.02 6.70 ± 0.60 5.00 ± 0.50 4.00 ± 0.40 6.30 ± 0.60 5.30 ± 0.50 3.90 ± 0.40 4.80 ± 0.50 ___________________________________________________________

94-mce/fan 95-bla/wei 96-hou/hol 94-mce/fan 95-bla/wei 88-jae/aud 94-mce/fan 95-bla/wei

MW = 16.04 MW = 46.07

B12 ± δB12 cm3· mol-1 -84 ± 10

Ref.

______________________________________________

73-gup/les

578

286

3 Mixtures of Two Organic Compounds

Methane Propene

[74-82-8] [115-07-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -124.9 ± 0.8 81-ohg/miz ___________

______________________________________________

Methane Propanone

T K 398.15 ___________

[74-82-8] [67-64-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 223.15 -360 ± 17 81-hic/pra 246.20 -231 ± 40 93-sch/lan 248.15 -242 ± 15 81-hic/pra 261.70 -189 ± 35 93-sch/lan ___________

CH4 C3H6

______________________________________________

Methane Propane

MW = 16.04 MW = 42.08

B12 ± δB12 cm3· mol-1 -64.3 ± 0.3

T K 273.10 273.15 323.15

[74-82-8] [74-98-6]

Ref.

______________________________________________

CH4 C3H6O

___________

579

82-ohg/nak-1

MW = 16.04 MW = 58.08

B12 ± δB12 cm3· mol-1 -183 ± 30 -191 ± 13 -84 ± 12

580

Ref.

______________________________________________

CH4 C3H8

93-sch/lan 81-hic/pra 81-hic/pra

MW = 16.04 MW = 44.10

581

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.4877 ⋅ 102 − 8.3334 ⋅ 104/(T/K) T/K 225 250

(B12 ± 2σest)/cm3· mol-1 -221.6 ± 15 -184.6 ± 10

T/K 300 350

(B12 ± 2σest)/cm3· mol-1 -129.0 ± 8 -89.3 ± 6

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 225.00 -228.1 ± 15 -6.5 96-tru/wak(†) 243.20 -192.0 ± 13 1.9 79-wor/lew(▲) 245.20 -187.0 ± 11 4.1 79-wor/lew(▲) 250.00 -185.4 ± 12 -0.8 96-tru/wak(†) 250.80 -180.0 ± 14 3.5 79-wor/lew(▲) 253.20 -176.0 ± 9 4.4 79-wor/lew(▲) 261.20 -166.0 ± 10 4.3 79-wor/lew(▲) 263.60 -168.0 ± 11 -0.6 79-wor/lew(▲) 273.15 -156.6 ± 4 -0.3 88-jae/aud(◊) 273.20 -156.0 ± 10 0.3 79-wor/lew(▲) 275.00 -152.7 ± 10 1.6 96-tru/wak(†) 281.20 -148.0 ± 8 -0.4 79-wor/lew(▲) 288.70 -136.2 ± 5 3.7 61-mas/eak(‹) _________

______________________________________

_____________________________________

T K 290.70 293.15 298.15 300.00 302.20 313.15 323.15 325.00 333.15 348.15 350.00 373.15 375.00 _________

T/K 400

(B12 ± 2σest)/cm3· mol-1 -59.6 ± 5

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -139.0 ± 10 -1.1 -136.2 ± 4 -0.7 -139.0 ± 8 -8.3 -127.0 ± 10 2.0 -127.0 ± 6 0.0 -116.9 ± 3 0.4 -116.0 ± 8 -6.9 -106.3 ± 9 1.3 -98.8 ± 3 2.6 -93.0 ± 11 -2.4 -89.2 ± 6 0.1 -75.0 ± 11 -0.4 -74.8 ± 5 -1.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 79-wor/lew(▲) 88-jae/aud(◊) 68-dan/kno-1(„) 96-tru/wak(†) 79-wor/lew(▲) 88-jae/aud(◊) 68-dan/kno-1(„) 96-tru/wak(†) 88-jae/aud(◊) 68-dan/kno-1(„) 96-tru/wak(†) 68-dan/kno-1(„) 96-tru/wak(†) cont. Landolt-Börnstein New Series IV/21B

287

3 Mixtures of Two Organic Compounds

Methane + Propane (cont.) 20

(B 12 - B 12calc)/cm3·mol-1

15 10 5 0 -5 `

-10 -15 -20 -25 200

240

280

320

360

400

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 377.60 0.500 -109.5 ± 5 63-bar/lin 410.90 0.500 -89.6 ± 5 63-bar/lin 444.30 0.500 -73.6 ± 5 63-bar/lin ___________

__________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 298.15 0.500 82 ± 2 68-dan/kno-1 323.15 0.500 66 ± 2 68-dan/kno-1 ___________

________________________________________

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 225.00 6.2 ± 0.5 96-tru/wak 250.00 5.8 ± 0.5 96-tru/wak 273.15 6.8 ± 0.7 88-jae/aud 275.00 5.2 ± 0.5 96-tru/wak 293.15 6.1 ± 0.7 88-jae/aud 300.00 4.8 ± 0.5 96-tru/wak ___________

__________________________________________________________

T K 477.60 510.90 ___________

T K 348.15 373.15 ___________

T K 313.15 325.00 333.15 350.00 375.00 ___________

X1

Bm ± δBm cm3· mol-1 -59.4 ± 5 -47.4 ± 5

Ref.

__________________________________________

0.500 0.500

x1

BE ± δBE cm3· mol-1 58 ± 1 53 ± 1

63-bar/lin 63-bar/lin

Ref.

________________________________________

0.500 0.500

C112 ± δC112 103· cm6· mol-2 5.3 ± 0.7 4.3 ± 0.4 4.4 ± 0.7 4.0 ± 0.4 3.7 ± 0.3

68-dan/kno-1 68-dan/kno-1

Ref.

__________________________________________________________

88-jae/aud 96-tru/wak 88-jae/aud 96-tru/wak 96-tru/wak

cont. Landolt-Börnstein New Series IV/21B

288

3 Mixtures of Two Organic Compounds

Methane + Propane (cont.) Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 K 103· cm6· mol-2 225.00 5.9 ± 0.5 96-tru/wak 250.00 9.7 ± 0.6 96-tru/wak 273.15 9.4 ± 1.9 88-jae/aud 275.00 10.3 ± 0.8 96-tru/wak 293.15 10.7 ± 1.9 88-jae/aud 300.00 9.8 ± 0.8 96-tru/wak ___________

__________________________________________________________

Methane Octafluorocyclobutane

T K 313.15 325.00 333.15 350.00 375.00 ___________

[74-82-8] [115-25-3]

C122 ± δC122 103· cm6· mol-2 11.3 ± 1.9 9.0 ± 0.7 11.0 ± 1.9 8.3 ± 0.7 7.6 ± 0.6

CH4 C4F8

T K 310.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 290.00 0.500 278.2 ± 1 92-bel/big 300.00 0.500 255.8 ± 1 92-bel/big

T x1 BE ± δBE K cm3· mol-1 310.00 0.500 230.5 ± 1

______________________________________________

___________

________________________________________

Methane Decafluorobutane

______________________________________________

Methane Butane

B12 ± δB12 cm3· mol-1 -141.7 ± 13.0

T K

[74-82-8] [106-97-8]

Ref. 92-bel/big

Ref.

________________________________________

CH4 C4F10

___________

582

______________________________________________

___________

[74-82-8] [355-25-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -128 ± 6 71-dan/kno ___________

___________

88-jae/aud 96-tru/wak 88-jae/aud 96-tru/wak 96-tru/wak

MW = 16.04 MW = 200.03

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 290.00 -167.1 ± 14.0 92-bel/big 300.00 -150.7 ± 14.0 92-bel/big ___________

Ref.

__________________________________________________________

92-bel/big

MW = 16.04 MW = 238.03

B12 ± δB12 cm3· mol-1

583

Ref.

______________________________________________

CH4 C4H10

MW = 16.04 MW = 58.12

584

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.2142 ⋅ 102 − 8.5890 ⋅ 104/(T/K) T/K 275 300

(B12 ± 2σest)/cm3· mol-1 -190.9 ± 10 -164.9 ± 10

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -124.0 ± 10 -93.3 ± 8

T/K 500 600

(B12 ± 2σest)/cm3· mol-1 -50.4 ± 6 -21.7 ± 5 cont. Landolt-Börnstein New Series IV/21B

289

3 Mixtures of Two Organic Compounds

Methane + Butane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -205.0 ± 6 -12.0 88-jae/aud(†) 277.00 -198.0 ± 21 -9.3 79-wor/lew(Δ) 284.20 -184.0 ± 17 -3.2 79-wor/lew(Δ) 288.70 -175.1 ± 8 1.0 61-mas/eak(z) 289.00 -179.0 ± 18 -3.2 79-wor/lew(Δ) 293.15 -173.5 ± 5 -1.9 88-jae/aud(†) 298.15 -183.0 ± 12 -16.3 68-dan/kno-1(▲) 303.20 -161.0 ± 14 0.9 79-wor/lew(Δ) 306.50 -155.0 ± 12 3.8 79-wor/lew(Δ) 313.15 -149.6 ± 5 3.3 88-jae/aud(†) 314.20 -162.0 ± 25 -10.1 79-wor/lew(Δ) 323.15 -150.0 ± 12 -5.6 68-dan/kno-1(▲) 328.70 -124.0 ± 12 15.9 79-wor/lew(Δ) 333.15 -133.2 ± 4 3.2 88-jae/aud(†) 348.15 -122.0 ± 11 3.3 68-dan/kno-1(▲) 348.20 -131.3 ± 4 -6.1 76-pom/spu(„) 373.15 -100.0 ± 11 8.8 68-dan/kno-1(▲) 373.20 -106.5 ± 4 2.2 76-pom/spu(„) _________

______________________________________

_____________________________________

T K 373.40 383.20 394.30 398.20 423.20 423.20 448.20 448.20 473.20 473.20 498.20 498.20 523.20 523.20 548.20 548.20 573.20 573.20 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -97.0 ± 22 11.6 -93.0 ± 13 9.7 -87.0 ± 14 9.4 -89.3 ± 4 5.0 -81.6 ± 1 -0.1 -74.8 ± 3 6.7 -69.4 ± 1 0.8 -61.8 ± 5 8.4 -60.4 ± 0.9 -0.3 -53.4 ± 5 6.7 -51.2 ± 0.9 -0.2 -42.7 ± 6 8.3 -42.0 ± 0.9 0.7 -37.7 ± 7 5.0 -35.2 ± 0.8 0.1 -35.0 ± 5 0.3 -29.2 ± 0.8 -0.8 -22.8 ± 8 5.6 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 79-wor/lew(Δ) 79-wor/lew(Δ) 79-wor/lew(Δ) 76-pom/spu(„) 42-bea/sto(‹) 76-pom/spu(„) 42-bea/sto(‹) 76-pom/spu(„) 42-bea/sto(‹) 76-pom/spu(„) 42-bea/sto(‹) 76-pom/spu(„) 42-bea/sto(‹) 76-pom/spu(„) 42-bea/sto(‹) 76-pom/spu(„) 42-bea/sto(‹) 76-pom/spu(„)

40

(B 12 - B 12calc)/cm3·mol-1

30 20 10 0 -10 -20 -30 -40 250

300

350

400

450

500

550

600

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

290

3 Mixtures of Two Organic Compounds

Methane + Butane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 298.15 0.500 204 ± 2 68-dan/kno-1 323.15 0.500 164 ± 2 68-dan/kno-1

T K 348.15 373.15

Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 3 6 -2 K 10 · cm · mol 273.15 10.8 ± 1 88-jae/aud 293.15 7.9 ± 1 88-jae/aud

T K 313.15 333.15

___________

___________

___________

________________________________________

__________________________________________________________

Methane 2-Methylpropane

[74-82-8] [75-28-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 288.70 -158.7 ± 5.0 61-mas/eak ___________

______________________________________________

Methane 1-Butanol

______________________________________________

Methane Diethyl ether

______________________________________________

0.500 0.500

T K

___________

C112 ± δC112 103· cm6· mol-2 6.8 ± 1 7.5 ± 1

T K

68-dan/kno-1 68-dan/kno-1

Ref. 88-jae/aud 88-jae/aud

MW = 16.04 MW = 58.12

B12 ± δB12 cm3· mol-1

585

Ref.

______________________________________________

MW = 16.04 MW = 74.12

B12 ± δB12 cm3· mol-1

586

Ref.

______________________________________________

CH4 C4H10O

___________

Ref.

__________________________________________________________

CH4 C4H10O

[74-82-8] [60-29-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -161 ± 3 73-mas/kin ___________

T K

___________

BE ± δBE cm3· mol-1 142 ± 1 124 ± 1 ________________________________________

CH4 C4H10

[74-82-8] [71-36-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -160 ± 12 73-mas/kin ___________

___________

x1

MW = 16.04 MW = 74.12

B12 ± δB12 cm3· mol-1

587

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

291

3 Mixtures of Two Organic Compounds

Methane Tetramethylsilane

[74-82-8] [75-76-3]

CH4 C4H12Si

MW = 16.04 MW = 88.22

588

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 9.2031 ⋅ 10 − 7.6809 ⋅ 104/(T/K) (B12 ± 2σest)/cm3· mol-1 -164.0 ± 15 -127.4 ± 10

T/K 300 350

T/K 400 450

(B12 ± 2σest)/cm3· mol-1 -100.0 ± 10 -78.7 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 300.00 -210.5 ± 30 -46.5 74-bel/rei(„) 320.00 -168.0 ± 30 -20.0 74-bel/rei(„) 323.16 -145.0 ± 10 1 55-ham/lam(▲) 333.16 -134.0 ± 10 4.5 55-ham/lam(▲) 340.00 -149.0 ± 30 -15.1 74-bel/rei(„) 343.16 -124.0 ± 10 7.8 55-ham/lam(▲) 353.16 -111.0 ± 10 14.5 55-ham/lam(▲) 363.16 -106.0 ± 10 13.5 55-ham/lam(▲) 370.00 -123.5 ± 30 -7.9 74-bel/rei(„) _________

______________________________________

_____________________________________

T K 383.16 400.00 403.16 430.00 460.00 490.00 520.00 550.00 _________

T/K 550

(B12 ± 2σest)/cm3· mol-1 -47.6 ± 10

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -97.0 ± 10 11.4 -102.6 ± 30 -2.6 -86.0 ± 10 12.5 -84.4 ± 30 2.2 -68.2 ± 30 6.7 -59.0 ± 30 5.7 -50.0 ± 30 5.7 -40.6 ± 30 7.0 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 55-ham/lam(▲) 74-bel/rei(„) 55-ham/lam(▲) 74-bel/rei(„) 74-bel/rei(„) 74-bel/rei(„) 74-bel/rei(„) 74-bel/rei(„)

60

(B 12 - B 12calc)/cm3·mol-1

40 20 0 -20 -40 -60 -80 280

320

360

400

440

480

520

560

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

cont. Landolt-Börnstein New Series IV/21B

292

3 Mixtures of Two Organic Compounds

Methane + Tetramethylsilane (cont.) Table 3. Experimental Bm values with uncertainty. x2 Ref. T Bm ± δBm K cm3· mol-1 323.16 0.000 -34.6 ± 3 55-ham/lam 323.16 0.246 -131.0 ± 13 55-ham/lam 323.16 0.334 -187.0 ± 18 55-ham/lam 323.16 0.568 -389.0 ± 40 55-ham/lam 323.16 0.799 -656.0 ± 65 55-ham/lam 323.16 1.000 -956.0 ± 100 55-ham/lam 333.16 0.000 -31.8 ± 3 55-ham/lam 333.16 0.246 -121.0 ± 12 55-ham/lam 333.16 0.334 -173.0 ± 17 55-ham/lam 333.16 0.568 -358.0 ± 35 55-ham/lam 333.16 0.799 -610.0 ± 60 55-ham/lam 333.16 1.000 -886.0 ± 90 55-ham/lam 343.16 0.000 -29.1 ± 3 55-ham/lam 343.16 0.246 -114.0 ± 10 55-ham/lam 343.16 0.334 -162.0 ± 15 55-ham/lam 343.16 0.568 -336.0 ± 30 55-ham/lam 343.16 0.799 -568.0 ± 55 55-ham/lam 343.16 1.000 -831.0 ± 80 55-ham/lam 353.16 0.000 -26.6 ± 3 55-ham/lam 353.16 0.246 -107.0 ± 10 55-ham/lam 353.16 0.334 -151.0 ± 15 55-ham/lam ___________

__________________________________________

Methane Dodecafluoropentane

[74-82-8] [678-26-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 373.15 -95 ± 10 71-dan/kno ___________

T K 353.16 353.16 353.16 363.16 363.16 363.16 363.16 363.16 363.16 383.16 383.16 383.16 383.16 383.16 383.16 403.16 403.16 403.16 403.16 403.16 403.16 ___________

______________________________________________

___________

Methane Pentane

T K

________________________________________

[74-82-8] [109-66-0]

T K

Bm ± δBm cm3· mol-1 -310.0 ± 30 -534.0 ± 50 -784.0 ± 80 -24.2 ± 3 -99.0 ± 10 -141.0 ± 15 -292.0 ± 30 -506.0 ± 50 -737.0 ± 70 -19.5 ± 3 -87.0 ± 10 -122.0 ± 12 -258.0 ± 25 -449.0 ± 45 -649.0 ± 65 -15.4 ± 3 -76.0 ± 8 -108.0 ± 10 -229.0 ± 20 -402.0 ± 40 -580.0 ± 60

Ref.

__________________________________________

0.568 0.799 1.000 0.000 0.246 0.334 0.568 0.799 1.000 0.000 0.246 0.334 0.568 0.799 1.000 0.000 0.246 0.334 0.568 0.799 1.000

CH4 C5F12

___________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 373.15 0.500 311 ± 5 71-dan/kno

x2

55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam

MW = 16.04 MW = 288.04

B12 ± δB12 cm3· mol-1

589

Ref.

______________________________________________

x1

___________

BE ± δBE cm3· mol-1

Ref.

________________________________________

CH4 C5H12

MW = 16.04 MW = 72.15

590

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 5.3644 ⋅ 102 + 3.9304 ⋅ 105/(T/K) − 8.9133 ⋅ 107/(T/K)2 cont. Landolt-Börnstein New Series IV/21B

293

3 Mixtures of Two Organic Compounds

Methane + Pentane (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 275 -285.8 ± 15 300 -216.7 ± 10

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -141.1 ± 10 -110.9 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -285 ± 15 7.2 88-jae/aud(†) 288.70 -270 ± 11 -25.6 61-mas/eak(Δ) 293.15 -242 ± 13 -9.1 88-jae/aud(†) 298.15 -222 ± 13 -1.1 68-dan/kno-1(„) 1 298.15 -170 ± 12 50.9 73-mas/kin 298.20 -204 ± 42 16.8 68-pec/win(▲) 313.15 -198 ± 10 -7.7 88-jae/aud(†) 318.50 -178 ± 20 3.1 79-wor/lew(‹) 323.15 -190 ± 12 -16.3 68-dan/kno-1(„) 323.20 -138 ± 30 35.6 68-pec/win(▲) 333.15 -153 ± 8 6.8 88-jae/aud(†) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 333.20 343.40 348.15 353.20 363.20 373.15 373.20 383.40 393.20 403.50 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -163 ± 18 -3.3 -150 ± 17 -2.3 -148 ± 12 -5.1 -139 ± 15 -0.9 -121 ± 16 9.0 -122 ± 12 1.3 -125 ± 14 -1.8 -121 ± 15 -3.3 -120 ± 17 -6.6 -105 ± 14 4.8 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 79-wor/lew(‹) 79-wor/lew(‹) 68-dan/kno-1(„) 79-wor/lew(‹) 79-wor/lew(‹) 68-dan/kno-1(„) 79-wor/lew(‹) 79-wor/lew(‹) 79-wor/lew(‹) 79-wor/lew(‹)

80

40

3

(B 12 - B 12calc)/cm ·mol

-1

60

20 0 -20 -40 -60 270

290

310

330

350

370

390

410

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 298.15 0.500 397 ± 3 68-dan/kno-1 323.15 0.500 320 ± 2 68-dan/kno-1 ___________

Landolt-Börnstein New Series IV/21B

________________________________________

T K 348.15 373.15 ___________

x1

BE ± δBE cm3· mol-1 270 ± 2 232 ± 2

Ref.

________________________________________

0.500 0.500

68-dan/kno-1 68-dan/kno-1 cont.

294

3 Mixtures of Two Organic Compounds

Methane + Pentane (cont.) Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 273.15 13.1 ± 1.2 88-jae/aud 293.15 11.8 ± 1.2 88-jae/aud ___________

__________________________________________________________

Methane 2-Methylbutane

[74-82-8] [78-78-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 288.70 -220 ± 5 61-mas/eak 298.20 -199 ± 43 68-pec/win ___________

T K 313.15 333.15 ___________

______________________________________________

Methane 2,2-Dimethylpropane

C112 ± δC112 103· cm6· mol-2 10.4 ± 1.2 9.0 ± 1.2

CH4 C5H12

T K 323.20 ___________

[74-82-8] [463-82-1]

Ref.

__________________________________________________________

88-jae/aud 88-jae/aud

MW = 16.04 MW = 72.15

B12 ± δB12 cm3· mol-1 -123 ± 36

591

Ref.

______________________________________________

CH4 C5H12

68-pec/win

MW = 16.04 MW = 72.15

592

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.3314 ⋅ 102 − 8.4264 ⋅ 104/(T/K) − 3.3841 ⋅ 106/(T/K)2 (B12 ± 2σest)/cm3· mol-1 -319.8 ± 20 -258.1 ± 20

T/K 220 250

T/K 300 400

(B12 ± 2σest)/cm3· mol-1 -185.3 ± 20 -98.7 ± 20

T/K 500 550

(B12 ± 2σest)/cm3· mol-1 -48.9 ± 15 -31.3 ± 15

50 30 20

3

(B 12 - B 12calc)/cm ·mol

-1

40

10 0 -10 -20 -30 -40 -50 200

250

300

350

400

450

500

550

600

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) cont. Landolt-Börnstein New Series IV/21B

295

3 Mixtures of Two Organic Compounds

Methane + 2,2-Dimethylpropane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 199.99 -434.0 ± 45 -61.2 75-bau/wes1 210.00 -374.0 ± 40 -29.1 75-bau/wes1 220.00 -331.0 ± 35 -11.2 75-bau/wes(◊) 230.00 -292.0 ± 30 5.2 75-bau/wes(◊) 240.00 -263.0 ± 25 13.7 75-bau/wes(◊) 249.99 -223.0 ± 20 35.1 75-bau/wes1 257.90 -188.0 ± 20 56.5 75-bau/wes1 296.15 -199.2 ± 2 -9.2 71-str/lic(„) 300.00 -193.7 ± 2 -8.4 74-bel/rei(▲) 303.16 -165.0 ± 20 16.6 55-ham/lam(‹) 313.20 -172.0 ± 2 -1.6 71-str/lic(„) 320.00 -170.8 ± 2 -7.6 74-bel/rei(▲) 323.16 -138.0 ± 15 22.0 55-ham/lam(‹) 333.16 -132.0 ± 15 18.3 55-ham/lam(‹) 334.00 -149.6 ± 1 -0.1 71-str/lic(„) 340.00 -153.7 ± 2 -9.7 74-bel/rei(▲) 343.15 -118.0 ± 10 23.2 55-ham/lam(‹) 353.16 -113.0 ± 10 19.6 55-ham/lam(‹) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

Table 3. Experimental Bm values with uncertainty. T x2 Ref. Bm ± δBm 3 -1 K cm · mol 303.16 0.000 -41.6 ± 1 55-ham/lam 303.16 0.180 -109.0 ± 5 55-ham/lam 303.16 0.357 -197.0 ± 10 55-ham/lam 303.16 0.608 -401.0 ± 20 55-ham/lam 303.16 0.696 -473.0 ± 25 55-ham/lam 303.16 1.000 -842.0 ± 40 55-ham/lam 323.16 0.000 -34.6 ± 1 55-ham/lam 323.16 0.180 -90.0 ± 5 55-ham/lam 323.16 0.357 -170.0 ± 10 55-ham/lam 323.16 0.608 -344.0 ± 15 55-ham/lam 323.16 0.696 -414.0 ± 20 55-ham/lam 323.16 1.000 -734.0 ± 40 55-ham/lam 333.16 0.000 -31.8 ± 1 55-ham/lam 333.16 0.180 -84.0 ± 4 55-ham/lam 333.16 0.357 -161.0 ± 8 55-ham/lam 333.16 0.608 -325.0 ± 15 55-ham/lam 333.16 0.696 -385.0 ± 20 55-ham/lam 333.16 1.000 -686.0 ± 40 55-ham/lam 343.16 0.000 -29.1 ± 1 55-ham/lam 343.16 0.180 -76.0 ± 5 55-ham/lam 343.16 0.357 -149.0 ± 8 55-ham/lam 343.16 0.608 -299.0 ± 15 55-ham/lam 343.16 0.698 -361.0 ± 20 55-ham/lam 343.16 1.000 -643.0 ± 40 55-ham/lam ___________

Landolt-Börnstein New Series IV/21B

__________________________________________

T K 353.50 363.16 370.00 373.60 383.16 394.30 400.00 403.16 413.80 430.00 433.80 453.60 460.00 473.80 490.00 492.60 520.00 550.00 _________

T K 353.16 353.16 353.16 353.16 353.16 353.16 363.16 363.16 363.16 363.16 363.16 363.16 383.16 383.16 383.16 383.16 383.16 383.16 403.16 403.16 403.16 403.16 403.16 403.16

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -131.1 ± 1 1.2 -106.0 ± 10 18.5 -130.2 ± 2 -10.9 -114.7 ± 1 2.0 -93.0 ± 10 16.8 -101.3 ± 1 1.0 -109.7 ± 2 -11.0 -78.0 ± 10 18.7 -87.5 ± 1 2.8 -92.0 ± 2 -10.9 -75.0 ± 1 4.1 -64.5 ± 1 4.6 -80.2 ± 2 -14.2 -53.2 ± 1 6.6 -69.2 ± 2 -16.3 -48.7 ± 1 3.2 -59.5 ± 2 -18.1 -46.9 ± 2 -15.6 ______________________________________

x2

___________

_____________________________________

Bm ± δBm cm3· mol-1 -26.6 ± 1 -72.0 ± 5 -139.0 ± 8 -283.0 ± 15 -338.0 ± 17 -602.0 ± 30 -24.2 ± 1 -67.0 ± 3 130.0 ± 6 -265.0 ± 13 -319.0 ± 16 -566.0 ± 20 -19.5 ± 1 -59.0 ± 3 -114.0 ± 6 -236.0 ± 12 -284.0 ± 14 -507.0 ± 20 -15.4 ± 1 -48.0 ± 3 -102.0 ± 5 -208.0 ± 10 -249.0 ± 12 -452.0 ± 20

Ref. (Symbol in Fig. 1) 71-str/lic(„) 55-ham/lam(‹) 74-bel/rei(▲) 71-str/lic(„) 55-ham/lam(‹) 71-str/lic(„) 74-bel/rei(▲) 55-ham/lam(‹) 71-str/lic(„) 74-bel/rei(▲) 71-str/lic(„) 71-str/lic(„) 74-bel/rei(▲) 71-str/lic(„) 74-bel/rei(▲) 71-str/lic(„) 74-bel/rei(▲) 74-bel/rei(▲)

Ref.

__________________________________________

0.000 0.180 0.357 0.608 0.696 1.000 0.000 0.180 0.357 0.608 0.696 1.000 0.000 0.180 0.357 0.608 0.696 1.000 0.000 0.180 0.357 0.608 0.696 1.000

55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam 55-ham/lam

296

3 Mixtures of Two Organic Compounds

Methane Tetradecafluorohexane

[74-82-8] [355-42-0]

CH4 C6F14

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -90 ± 10 71-dan/kno

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 373.15 0.500 484 ± 7 71-dan/kno

___________

___________

___________

[74-82-8] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -155 ± 15 68-eve/gai 323.20 -171 ± 3 69-coa/kin 363.20 -144 ± 10 96-zha/sat 373.20 -135 ± 10 96-zha/sat ___________

______________________________________________

Methane 2,5-Hexanedione

______________________________________________

Methane Cyclohexane

T K 545.15 ___________

______________________________________________

T K 393.20 403.20 413.20

Ref.

________________________________________

MW = 16.04 MW = 78.11

B12 ± δB12 cm3· mol-1 -127 ± 10 -120 ± 10 -107 ± 10 -98 ± 20

594

Ref.

______________________________________________

96-zha/sat 96-zha/sat 96-zha/sat 96-zha/sat

MW = 16.04 MW = 114.14

B12 ± δB12 cm3· mol-1 43 ± 4

595

Ref.

______________________________________________

CH4 C6H12

___________

Ref.

BE ± δBE cm3· mol-1

x1

CH4 C6H10O2

[74-82-8] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 363.20 -135 ± 10 77-wor 373.20 -126 ± 10 77-wor 383.20 -115 ± 10 77-wor ___________

T K 383.20 393.20 403.20 413.20 ___________

593

______________________________________________

CH4 C6H6

[74-82-8] [110-13-4]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 503.15 -48 ± 6 78-kau/pra ___________

T K

________________________________________

Methane Benzene

B12 ± δB12 cm3· mol-1

T K

______________________________________________

MW = 16.04 MW = 338.04

78-kau/pra

MW = 16.04 MW = 84.16

B12 ± δB12 cm3· mol-1 -120 ± 10 -90 ± 20 -86 ± 15

596

Ref.

______________________________________________

77-wor 77-wor 77-wor

Landolt-Börnstein New Series IV/21B

297

3 Mixtures of Two Organic Compounds

Methane Hexane

[74-82-8] [110-54-3]

CH4 C6H14

MW = 16.04 MW = 86.18

597

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 3.0763 ⋅ 102 − 1.6881 ⋅ 105/(T/K) (B12 ± 2σest)/cm3· mol-1 -306.2 ± 15 -255.1 ± 10

T/K 275 300

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -174.7 ± 10 -114.4 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -302 ± 9 8.4 88-jae/aud(▲) 293.15 -270 ± 8 -1.8 88-jae/aud(▲) 298.15 -261 ± 14 -2.4 68-dan/kno-1(‹) 298.20 -292 ± 55 -33.5 68-pec/win1 313.15 -238 ± 7 -6.6 88-jae/aud(▲) 323.15 -225 ± 13 -10.2 68-dan/kno-1(‹) 323.20 -280 ± 54 -65.3 68-pec/win1 333.15 -206 ± 6 -6.9 88-jae/aud(▲) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 343.20 348.15 363.20 373.15 373.20 383.20 389.20 407.70 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -180 ± 27 4.2 -180 ± 11 -2.8 -144 ± 24 13.2 -145 ± 11 -0.2 -139 ± 23 5.7 -134 ± 21 -1.1 -124 ± 32 2.1 -108 ± 20 -1.6 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 79-wor/lew(„) 68-dan/kno-1(‹) 79-wor/lew(„) 68-dan/kno-1(‹) 79-wor/lew(„) 79-wor/lew(„) 79-wor/lew(„) 79-wor/lew(„)

40

(B 12 - B 12calc)/cm 3·mol-1

30 20 10 0 -10 -20 -30 -40 270

290

310

330

350

370

390

410

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 298.15 0.500 720 ± 40 68-dan/kno-1 323.15 0.500 557 ± 5 68-dan/kno-1 ___________

Landolt-Börnstein New Series IV/21B

________________________________________

T x1 K 348.15 0.500 373.15 0.500 ___________

BE ± δBE cm3· mol-1 454 ± 1 381 ± 2

Ref.

________________________________________

68-dan/kno-1 68-dan/kno-1

298

3 Mixtures of Two Organic Compounds

Methane 2-Methylpentane

[74-82-8] [107-83-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.20 -317 ± 42 68-pec/win ___________

______________________________________________

Methane 2,2-Dimethylbutane

______________________________________________

Methane Diisopropyl ether

______________________________________________

Methane Toluene

___________

T K 323.20 ___________

______________________________________________

Methane Heptane

T K 273.15 323.15 ___________

___________

Ref. 68-pec/win

MW = 16.04 MW = 86.18

B12 ± δB12 cm3· mol-1 -154 ± 29

599

Ref.

______________________________________________

68-pec/win

MW = 16.04 MW = 102.18

B12 ± δB12 cm3· mol-1 -293 ± 26 -147 ± 12

600

Ref.

______________________________________________

CH4 C7H8

T K 282.70

[74-82-8] [142-82-5]

B12 ± δB12 cm3· mol-1 -144 ± 34

598

______________________________________________

CH4 C6H14O

[74-82-8] [108-88-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 242.60 -446 ± 25 93-sch/lan 262.00 -355 ± 15 93-sch/lan

MW = 16.04 MW = 86.18

CH4 C6H14

[74-82-8] [108-20-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 223.15 -550 ± 64 81-hic/pra 248.15 -405 ± 20 81-hic/pra ___________

T K 323.20 ___________

[74-82-8] [75-83-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.30 -216 ± 42 68-pec/win ___________

CH4 C6H14

81-hic/pra 81-hic/pra

MW = 16.04 MW = 92.14

B12 ± δB12 cm3· mol-1 -277 ± 25

601

Ref.

______________________________________________

CH4 C7H16

93-sch/lan

MW = 16.04 MW = 100.20

602

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 1.6715 ⋅ 102 + 1.4053 ⋅ 105/(T/K) − 5.3187 ⋅ 107/(T/K)2 T/K 250 300

(B12 ± 2σest)/cm3· mol-1 -456.0 ± 25 -289.7 ± 15

T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -199.8 ± 10 -148.2 ± 10

T/K 420

(B12 ± 2σest)/cm3· mol-1 -134.1 ± 10

cont. Landolt-Börnstein New Series IV/21B

299

3 Mixtures of Two Organic Compounds

Methane + Heptane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 246.20 -508 ± 30 -34.2 93-sch/lan(‹) 261.70 -404 ± 20 2.8 93-sch/lan(‹) 273.10 -365 ± 15 0.7 93-sch/lan(‹) 273.15 -359 ± 10 6.5 88-jae/aud(„) 293.15 -305 ± 9 1.7 88-jae/aud(„) 313.15 -261 ± 8 -0.2 88-jae/aud(„) _________

______________________________________

_____________________________________

T K 333.15 389.20 390.20 405.70 408.20 413.30 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -228 ± 7 -3.5 -162 ± 26 -4.8 -157 ± 26 -0.7 -127 ± 26 16.9 -135 ± 35 7.1 -131 ± 33 7.5 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-jae/aud(„) 79-wor/lew(▲) 79-wor/lew(▲) 79-wor/lew(▲) 79-wor/lew(▲) 79-wor/lew(▲)

3

(B 12 - B 12calc)/cm ·mol

-1

60 40 20 0 -20 -40 -60 -80 240

260

280

300

320

340

360

380

400

420

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Methane Octane

[74-82-8] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 273.15 -403.6 ± 12 88-jae/aud 293.15 -342.3 ± 11 88-jae/aud 313.15 -292.5 ± 9 88-jae/aud ___________

______________________________________________

Methane 2,5,8,11-Tetraoxadodecane

Landolt-Börnstein New Series IV/21B

______________________________________________

MW = 16.04 MW = 114.23

T B12 ± δB12 K cm3· mol-1 333.15 -254.1 ± 8 410.20 -151 ± 38 418.30 -150 ± 32 ___________

[74-82-8] [112-49-2]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 348.20 -290 ± 10 76-dav/kau 373.20 -248 ± 10 76-dav/kau ___________

CH4 C8H18

T K 398.20 423.20

Ref.

______________________________________________

CH4 C8H18O4

___________

603

88-jae/aud 79-wor/lew 79-wor/lew

MW = 16.04 MW = 178.23

B12 ± δB12 cm3· mol-1 -200 ± 10 -164 ± 10

Ref.

______________________________________________

76-dav/kau 76-dav/kau

604

300

3 Mixtures of Two Organic Compounds

Methane Nonane

[74-82-8] [111-84-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 246.20 -620 ± 30 93-sch/lan 261.70 -476 ± 40 93-sch/lan ___________

______________________________________________

Methane 2,2,5-Trimethylhexane

______________________________________________

Methane Naphthalene

______________________________________________

Methane (1,1-Dimethylethyl)benzene

______________________________________________

Methane Decane

______________________________________________

B12 ± δB12 cm3· mol-1 -464 ± 30

CH4 C9H20

T K 373.20 398.20 ___________

T K 373.20 398.20

Ref. 93-sch/lan

MW = 16.04 MW = 128.26

B12 ± δB12 cm3· mol-1 -169 ± 10 -144 ± 10

606

Ref. 76-dav/kau 76-dav/kau

MW = 16.04 MW = 128.17

B12 ± δB12 cm3· mol-1 -243 ± 11 -243 ± 11 -196 ± 6 -176 ± 6

607

Ref.

______________________________________________

66-naj/kin 66-naj/kin 62-kin/rob 62-kin/rob

MW = 16.04 MW = 134.22

B12 ± δB12 cm3· mol-1 -158 ± 10 -120 ± 10

608

Ref.

______________________________________________

CH4 C10H22

___________

605

______________________________________________

CH4 C10H14

[74-82-8] [124-18-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 323.20 -289 ± 10 76-dav/kau 348.20 -232 ± 10 76-dav/kau ___________

T K 333.00 341.00 342.20 348.20 ___________

MW = 16.04 MW = 128.26

______________________________________________

CH4 C10H8

[74-82-8] [98-06-6]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 323.20 -224 ± 10 76-dav/kau 348.20 -179 ± 10 76-dav/kau ___________

T K 348.20 373.20 ___________

[74-82-8] [91-20-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 294.00 -363 ± 11 66-naj/kin 296.20 -321 ± 10 62-kin/rob 307.00 -314 ± 12 66-naj/kin 307.00 -324 ± 18 66-naj/kin 327.00 -257 ± 11 66-naj/kin ___________

T K 273.10 ___________

[74-82-8] [3522-94-9]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 298.20 -243 ± 10 76-dav/kau 323.20 -200 ± 10 76-dav/kau ___________

CH4 C9H20

76-dav/kau 76-dav/kau

MW = 16.04 MW = 142.28

B12 ± δB12 cm3· mol-1 -181 ± 10 -134 ± 10

609

Ref.

_____________________________________________

76-dav/kau 76-dav/kau Landolt-Börnstein New Series IV/21B

301

3 Mixtures of Two Organic Compounds

Methane 1-Methylnaphthalene

[74-82-8] [90-12-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 348.15 -205 ± 10 78-kau/pra 398.15 -146 ± 10 78-kau/pra ___________

______________________________________________

Methane Bicyclohexyl

______________________________________________

Methane Diphenylmethane

______________________________________________

Methane Phenanthrene

Landolt-Börnstein New Series IV/21B

_____________________________________________

B12 ± δB12 cm3· mol-1 -91 ± 10

T K 408.15 443.15 ___________

T K 359.00 361.00 363.00 365.00 368.00 371.00 380.00 395.00 411.00

Ref. 78-kau/pra

MW = 16.04 MW = 166.31

B12 ± δB12 cm3· mol-1 -104 ± 10 -96 ± 10

611

Ref. 78-kau/pra 78-kau/pra

MW = 16.04 MW = 168.24

B12 ± δB12 cm3· mol-1 -237 ± 10 -176 ± 10

612

Ref.

______________________________________________

CH4 C14H10

___________

610

______________________________________________

CH4 C13H12

[74-82-8] [85-01-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.00 -443 ± 13 70-bra/kin 320.00 -445 ± 13 70-bra/kin 327.00 -427 ± 13 70-bra/kin 329.00 -390 ± 13 70-bra/kin 334.00 -372 ± 13 70-bra/kin 340.00 -372 ± 13 70-bra/kin 348.00 -341 ± 13 70-bra/kin 352.00 -308 ± 13 70-bra/kin 356.00 -340 ± 13 70-bra/kin ___________

T K 403.15 443.15 ___________

MW = 16.04 MW = 142.20

_____________________________________________

CH4 C12H22

[74-82-8] [101-81-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 338.15 -295 ± 15 78-kau/pra 373.15 -268 ± 12 78-kau/pra ___________

T K 448.15 ___________

[74-82-8] [92-51-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 323.15 -299 ± 15 78-kau/pra 363.15 -223 ± 10 78-kau/pra ___________

CH4 C11H10

78-kau/pra 78-kau/pra

MW = 16.04 MW = 178.23

B12 ± δB12 cm3· mol-1 -331 ± 13 -287 ± 13 -298 ± 13 -296 ± 13 -290 ± 13 -293 ± 13 -270 ± 13 -240 ± 13 -203 ± 13

Ref.

______________________________________________

70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin

613

302

3 Mixtures of Two Organic Compounds

Methane Anthracene

[74-82-8] [120-12-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 339.00 -326 ± 12 70-naj/kin 346.00 -324 ± 12 70-naj/kin 348.00 -291 ± 12 70-naj/kin 350.00 -316 ± 12 70-naj/kin 355.00 -314 ± 12 70-naj/kin 362.00 -290 ± 12 70-naj/kin 369.00 -269 ± 12 70-naj/kin 373.00 -292 ± 12 70-naj/kin ___________

______________________________________________

Methane Hexadecane

______________________________________________

Methane Eicosane

T K 423.20 448.20 ___________

______________________________________________

T K 508.20 543.20

Methane [74-82-8] 2,6,10,15,19,23-Hexamethyltetracosane [111-01-3] Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 503.20 -48 ± 6 78-kau/pra ___________

______________________________________________

B12 ± δB12 cm3· mol-1 -256 ± 12 -235 ± 12 -204 ± 12 -198 ± 12 -177 ± 12 -208 ± 12 -174 ± 12

T K 545.20 ___________

614

Ref. 70-naj/kin 70-naj/kin 70-naj/kin 70-naj/kin 70-naj/kin 70-naj/kin 70-naj/kin

MW = 16.04 MW = 226.45

B12 ± δB12 cm3· mol-1 -170 ± 10 -103 ± 10

615

Ref.

______________________________________________

CH4 C20H42

___________

MW = 16.04 MW = 178.23

______________________________________________

CH4 C16H34

[74-82-8] [112-95-8]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 438.20 -214 ± 10 78-kau/pra 473.20 -149 ± 10 78-kau/pra ___________

T K 382.00 396.00 407.00 423.00 445.00 449.00 458.00 ___________

[74-82-8] [544-76-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 348.20 -371 ± 15 78-kau/pra 373.20 -260 ± 14 78-kau/pra 398.20 -214 ± 12 78-kau/pra ___________

CH4 C14H10

78-kau/pra 78-kau/pra

MW = 16.04 MW = 282.55

B12 ± δB12 cm3· mol-1 -103 ± 10 -56 ± 5

616

Ref.

______________________________________________

78-kau/pra 78-kau/pra

CH4

MW = 16.04

C30H62

MW = 422.82

B12 ± δB12 cm3· mol-1 43 ± 4

617

Ref.

______________________________________________

78-kau/pra

Landolt-Börnstein New Series IV/21B

303

3 Mixtures of Two Organic Compounds

Methanol Ethene

[67-56-1] [74-85-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 288.15 -279 ± 6 72-hem/kin 298.15 -247 ± 6 72-hem/kin 303.78 -872 ± 26 71-rae/fre 310.15 -213 ± 7 72-hem/kin ___________

______________________________________________

Methanol Ethane

T K 311.46 323.15 333.15 333.36 ___________

[67-56-1] [74-84-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 267.20 -376 ± 8 80-laz/bre 278.20 -331 ± 17 80-laz/bre 288.15 -306 ± 5 72-hem/kin 298.15 -276 ± 8 72-hem/kin ___________

CH4O C2H4

______________________________________________

Methanol Methyl ethanoate

T K 310.15 323.15 333.15

[67-56-1] [79-20-9] T K 423.15 423.15 433.15 433.15

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 393.25 0.541 -547.1 ± 30 89-olf/sch 393.55 0.552 -556.7 ± 30 89-olf/sch 402.65 0.517 -507.9 ± 30 89-olf/sch 403.25 0.528 -524.2 ± 30 89-olf/sch 413.25 0.517 -466.3 ± 30 89-olf/sch

T K 423.15 423.15 433.15 433.15

___________

______________________________________________

__________________________________________

Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. 3 K 10 · cm6· mol-2 393.15 0.550 -37.4 ± 10 89-olf/sch 393.55 0.552 -24.2 ± 20 89-olf/sch ___________

___________________________________________________________

___________

___________

T K 402.65 403.25 ___________

Ref. 71-rae/fre 72-hem/kin 72-hem/kin 71-rae/fre

MW = 32.04 MW = 30.07

B12 ± δB12 cm3· mol-1 -234 ± 4 -220 ± 7 -203 ± 7

619

Ref.

______________________________________________

CH4O C3H6O2

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 393.25 -569.7 ± 40.0 89-olf/sch 393.55 -595.0 ± 40.0 89-olf/sch 402.65 -524.1 ± 40.0 89-olf/sch 403.25 -564.1 ± 40.0 89-olf/sch 413.25 -482.5 ± 40.0 89-olf/sch ___________

B12 ± δB12 cm3· mol-1 -719 ± 22 -192 ± 6 -179 ± 4 -685 ± 20

618

______________________________________________

CH4O C2H6

___________

MW = 32.04 MW = 28.05

72-hem/kin 72-hem/kin 72-hem/kin

MW = 32.04 MW = 74.08

B12 ± δB12 cm3· mol-1 -476.8 ± 40.0 -449.4 ± 40.0 -431.5 ± 40.0 -444.9 ± 40.0

620

Ref.

______________________________________________

x1

89-olf/sch 89-olf/sch 89-olf/sch 89-olf/sch

Bm ± δBm cm3· mol-1 -439.6 ± 25 -435.4 ± 25 -408.7 ± 25 -417.9 ± 25

Ref.

__________________________________________

0.548 0.504 0.515 0.504

x1

89-olf/sch 89-olf/sch 89-olf/sch 89-olf/sch

Cm ± δCm Ref. 10 · cm6· mol-2 -10.7 ± 5 89-olf/sch 10.3 ± 5 89-olf/sch ___________________________________________________________

3

0.517 0.528

cont. Landolt-Börnstein New Series IV/21B

304

3 Mixtures of Two Organic Compounds

Methanol + Methyl ethanoate (cont.) Table 5. (cont.) T x1 K 413.25 0.517 423.25 0.548 423.15 0.504 ___________

Cm ± δCm 103· cm6· mol-2 26.0 ± 5 52.0 ± 5 44.0 ± 5

Ref.

Methanol Diethyl ether

T K 433.15 433.15 ___________

___________________________________________________________

89-olf/sch 89-olf/sch 89-olf/sch

[67-56-1] [60-29-7]

x1

Ref. Cm ± δCm 103· cm6· mol-2 46.5 ± 5 89-olf/sch 69.0 ± 5 89-olf/sch ___________________________________________________________

0.515 0.504

CH4O C4H10O

MW = 32.04 MW = 74.12

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 398.15 -370.9 ± 40.0 89-olf/sch 398.25 -390.6 ± 40.0 89-olf/sch 413.35 -287.3 ± 40.0 89-olf/sch

T K 413.35 433.35 433.45

B12 ± δB12 cm3· mol-1 -312.0 ± 40.0 -235.5 ± 30.0 -217.3 ± 30.0

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 398.15 0.4580 -432.0 ± 30 89-olf/sch 398.25 0.4622 -441.0 ± 30 89-olf/sch 413.35 0.4647 -375.6 ± 30 89-olf/sch

T K 413.35 433.35 433.45

Bm ± δBm cm3· mol-1 0.4677 -362.8 ± 30 0.4741 -308.0 ± 30 0.4824 -297.3 ± 30

Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. 3 K 10 · cm6· mol-2 398.15 0.485 -78.8 ± 10 89-olf/sch 398.25 0.462 -43.5 ± 8 89-olf/sch 413.35 0.465 -48.5 ± 8 89-olf/sch

T K 413.35 433.35 433.45

___________

___________

___________

______________________________________________

__________________________________________

___________________________________________________________

Methanol Pentane

___________

___________

[67-56-1] [109-66-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 303.69 -1019 ± 31 71-rae/fre ___________

___________

______________________________________________

T K 313.00

Ref.

______________________________________________

89-olf/sch 89-olf/sch 89-olf/sch

x1

Ref.

__________________________________________

x1

Cm ± δCm 103· cm6· mol-2 -75.4 ± 8 -90.1 ± 8 -103.7 ± 10

89-olf/sch 89-olf/sch 89-olf/sch

Ref.

___________________________________________________________

0.468 0.474 0.482

CH4O C5H12

___________

621

89-olf/sch 89-olf/sch 89-olf/sch

MW = 32.04 MW = 72.15

B12 ± δB12 cm3· mol-1 -950 ± 28

622

Ref.

______________________________________________

71-rae/fre

Landolt-Börnstein New Series IV/21B

305

3 Mixtures of Two Organic Compounds

Methanol Pentylamine

[67-56-1] [110-58-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 363.15 -1201 ± 160 89-abu/ver ___________

______________________________________________

Methanol Benzene

CH4O C5H13N

T K 363.15 ___________

[67-56-1] [71-43-2]

MW = 32.04 MW = 87.16

B12 ± δB12 cm3· mol-1 -1200 ± 160

623

Ref.

______________________________________________

CH4O C6H6

89-abu/ver

MW = 32.04 MW = 78.11

624

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 6.4967 ⋅ 10 + 9.8356 ⋅ 103/(T/K) − 6.7332 ⋅ 107/(T/K)2 T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -456.6 ± 20 -331.3 ± 10

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -245.7 ± 10 -184.7 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 313.15 -545 ± 52 45.2 68-kno/edm1 313.15 -823 ± 5 -232.8 73-koh/ope1 333.15 -507 ± 52 5.2 68-kno/edm1 333.15 -522 ± 5 -9.8 73-koh/ope1 353.15 -319 ± 52 128.1 68-kno/edm1 353.15 -340 ± 5 107.1 73-koh/ope1 363.20 -424 ± 30 -5.6 97-wor/sow-1(„) 368.20 -409 ± 30 -4.0 97-wor/sow-1(„) 373.15 -281 ± 52 111.2 68-kno/edm1 373.15 -236 ± 5 156.2 73-koh/ope1 373.15 -386 ± 4 6.2 88-pie/ope(‹) 373.20 -395 ± 25 -2.9 97-wor/sow-1(„) 378.20 -382 ± 20 -2.2 97-wor/sow-1(„) 383.20 -370 ± 20 -2.1 97-wor/sow-1(„) 393.20 -346 ± 20 -0.5 97-wor/sow-1(„) 398.15 -334 ± 3 1.1 88-pie/ope(‹) 403.20 -325 ± 15 -0.2 97-wor/sow-1(„) 413.20 -306 ± 15 -0.4 97-wor/sow-1(„) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 423.15 423.20 433.20 448.15 473.15 473.20 483.20 493.20 498.15 503.20 513.20 523.15 523.20 548.15 573.15 598.15 623.15 _________

T/K 550 600

(B12 ± 2σest)/cm3· mol-1 -139.7 ± 10 -105.7 ± 10

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -286 ± 4 1.8 -288 ± 15 -0.3 -272 ± 20 -0.9 -245 ± 5 3.3 -209 ± 6 6.0 -218 ± 15 -3.1 -207 ± 15 -3.9 -196 ± 15 -4.1 -180 ± 6 6.6 -186 ± 15 -4.6 -177 ± 15 -5.5 -156 ± 6 6.3 -168 ± 10 -5.8 -136 ± 6 5.2 -121 ± 6 1.8 -104 ± 3 2.8 -94 ± 3 -1.4 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-pie/ope(‹) 97-wor/sow-1(„) 97-wor/sow-1(„) 88-pie/ope(‹) 88-pie/ope(‹) 97-wor/sow-1(„) 97-wor/sow-1(„) 97-wor/sow-1(„) 88-pie/ope(‹) 97-wor/sow-1(„) 97-wor/sow-1(„) 88-pie/ope(‹) 97-wor/sow-1(„) 88-pie/ope(‹) 88-pie/ope(‹) 88-pie/ope(‹) 88-pie/ope(‹)

cont. Landolt-Börnstein New Series IV/21B

306

3 Mixtures of Two Organic Compounds

Methanol + Benzene (cont.) 40 (B 12 - B 12calc)/cm3·mol-1

30 20 10 0 -10 -20 -30 -40 350

400

450

500

550

600

650

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Methanol Cyclohexane

[67-56-1] [110-82-7]

CH4O C6H12

MW = 32.04 MW = 84.16

625

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 9.6586 ⋅ 10 − 4.5832 ⋅ 104/(T/K) − 3.4819 ⋅ 107/(T/K)2 T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -318.6 ± 30 -235.6 ± 25

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -177.2 ± 20 -134.4 ± 15

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 363.20 -294 ± 30 -0.4 77-wor/sow(‹) 368.20 -285 ± 30 -0.3 77-wor/sow(‹) 373.20 -276 ± 25 0.2 77-wor/sow(‹) 378.20 -268 ± 25 0.0 77-wor/sow(‹) 383.20 -260 ± 25 0.1 77-wor/sow(‹) 393.20 -245 ± 20 0.2 77-wor/sow(‹) 403.20 -231 ± 20 0.3 77-wor/sow(‹) 413.20 -218 ± 20 0.3 77-wor/sow(‹) _________

______________________________________

_____________________________________

T K 423.20 433.20 473.20 483.20 493.20 503.20 513.20 523.20 _________

T/K 550

(B12 ± 2σest)/cm3· mol-1 -101.8 ± 10

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -206 ± 20 0.1 -195 ± 20 -0.2 -156 ± 15 -0.2 -147 ± 15 0.4 -140 ± 15 -0.5 -132 ± 10 0.0 -125 ± 10 -0.1 -118 ± 10 0.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 77-wor/sow(‹) 77-wor/sow(‹) 77-wor/sow(‹) 77-wor/sow(‹) 77-wor/sow(‹) 77-wor/sow(‹) 77-wor/sow(‹) 77-wor/sow(‹)

cont. Landolt-Börnstein New Series IV/21B

307

3 Mixtures of Two Organic Compounds

Methanol + Cyclohexane (cont.) 40

3

(B 12 - B 12calc)/cm ·mol

-1

30 20 10 0 -10 -20 -30 -40 350

400

450

500

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Methanol Hexane

[67-56-1] [110-54-3]

CH4O C6H14

MW = 32.04 MW = 86.18

626

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 2.7957 ⋅ 102 + 3.3896 ⋅ 105/(T/K) − 1.2459 ⋅ 108/(T/K)2 T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -328.2 ± 30 -210.9 ± 25

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -141.6 ± 25 -100.0 ± 25

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 348.03 -347 ± 29 -12.8 96-hen/vog(‹) 374.27 -242 ± 27 21.3 96-hen/vog(‹) 397.43 -212 ± 26 3.5 96-hen/vog(‹) 422.26 -179 ± 26 -3.4 96-hen/vog(‹) 446.94 -157 ± 25 -12.1 96-hen/vog(‹) 473.96 -123 ± 25 -4.0 96-hen/vog(‹) _________

______________________________________

_____________________________________

T K 496.93 525.61 548.51 574.25 599.45 _________

T/K 550 600

(B12 ± 2σest)/cm3· mol-1 -75.1 ± 25 -60.7 ± 25

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -103 ± 25 -1.0 -77 ± 24 8.7 -69 ± 24 6.7 -70 ± 29 -2.9 -65 ± 29 -4.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 96-hen/vog(‹) 96-hen/vog(‹) 96-hen/vog(‹) 96-hen/vog(‹) 96-hen/vog(‹)

cont. Landolt-Börnstein New Series IV/21B

308

3 Mixtures of Two Organic Compounds

Methanol + Hexane (cont.) 50

(B 12 - B 12 calc)/cm3·mol-1

40 30 20 10 0 -10

`

-20 -30 -40 -50 300

350

400

450

500

550

600

650

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Hexafluoroethane Ethane

[76-16-4] [74-84-0]

C2F6 C2H6

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -145.0 ± 5.0 71-dan/kno

T K 373.15

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 323.15 0.500 33 ± 1 71-dan/kno

T K 373.15

___________

______________________________________________

___________

___________

___________

________________________________________

Hexafluoroethane Octafluoropropane

[76-16-4] [76-19-7] T K 373.15

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 323.15 0.500 18 ± 1 69-dan/kno

T K 373.15

___________

___________

______________________________________________

________________________________________

B12 ± δB12 cm3· mol-1 -90.0 ± 5.0

___________

627

Ref.

______________________________________________

x1

71-dan/kno

BE ± δBE cm3· mol-1 28 ± 1

Ref.

________________________________________

0.500

C2F6 C3F8

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -299 ± 20 69-dan/kno

MW = 138.01 MW = 30.07

71-dan/kno

MW = 138.01 MW = 188.02

B12 ± δB12 cm3· mol-1 -192 ± 15

628

Ref.

______________________________________________

x1

___________

69-dan/kno

BE ± δBE cm3· mol-1 14 ± 1

Ref.

________________________________________

0.500

69-dan/kno

Landolt-Börnstein New Series IV/21B

309

3 Mixtures of Two Organic Compounds

Hexafluoroethane Decafluorobutane

[76-16-4] [355-25-9]

C2F6 C4F10

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -388 ± 23 69-dan/kno

T K 373.15

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 323.15 0.500 84 ± 2 69-dan/kno

T K 373.15

___________

______________________________________________

___________

________________________________________

Hexafluoroethane Butane

___________

___________

[76-16-4] [106-97-8]

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.500 114 ± 1 71-dan/kno

___________

___________

___________

T K

______________________________________________

T K

________________________________________

Hexafluoroethane Dodecafluoropentane

[76-16-4] [678-26-2] T K 373.15

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 323.15 0.500 212 ± 4 69-dan/kno

T K 373.15

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

________________________________________

x1

___________

Ref. 69-dan/kno

BE ± δBE cm3· mol-1 52 ± 2

Ref.

________________________________________

0.500

69-dan/kno

MW = 138.01 MW = 58.12

B12 ± δB12 cm3· mol-1

630

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1

Ref.

________________________________________

C2F6 C5F12

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -482 ± 30 69-dan/kno ___________

B12 ± δB12 cm3· mol-1 -254 ± 23

629

______________________________________________

C2F6 C4H10

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -282 ± 7 71-dan/kno

MW = 138.01 MW = 238.03

MW = 138.01 MW = 288.04

B12 ± δB12 cm3· mol-1 -314 ± 25

631

Ref.

______________________________________________

x1

___________

69-dan/kno

BE ± δBE cm3· mol-1 143 ± 5

Ref.

________________________________________

0.500

69-dan/kno

310

3 Mixtures of Two Organic Compounds

Hexafluoroethane Pentane

[76-16-4] [109-66-0]

C2F6 C5H12

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -353 ± 10 71-dan/kno

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 323.15 0.500 233 ± 2 71-dan/kno

___________

___________

T K

______________________________________________

___________

T K

________________________________________

Hexafluoroethane Tetradecafluorohexane

[76-16-4] [355-42-0] T K 373.15

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 323.15 0.500 420 ± 12 69-dan/kno

T K 373.15

___________

______________________________________________

___________

________________________________________

Pentafluoroethane 1,1,1,2-Tetrafluoroethane

B12 ± δB12 cm3· mol-1

___________

___________

[354-33-6] [811-97-2]

x1

BE ± δBE cm3· mol-1

B12 ± δB12 cm3· mol-1 -354 ± 30

x1

Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. ___________

___________

0.500

K 323.15 338.15

0.500 0.500

6

T ___________

69-dan/kno

MW = 120.02 MW = 102.03

634

Ref. 94-web/def 94-web/def

Bm ± δBm cm3· mol-1 0.500 -273.9 ± 0.5 0.500 -237.4 ± 0.5 x1

Ref.

__________________________________________

x1

94-web/def 94-web/def

Cm ± δCm

Ref.

___________________________________________________________

-2

10 · cm · mol 33.2 ± 0.5 28.2 ± 0.5

Ref.

______________________________________________

___________________________________________________________

3

69-dan/kno

BE ± δBE cm3· mol-1 272 ± 8

T K 353.15 373.15

__________________________________________

Ref.

________________________________________

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 323.15 0.500 -349.3 ± 0.5 94-web/def 338.15 0.500 -306.9 ± 0.5 94-web/def ___________

633

______________________________________________

C2HF5 C2H2F4

___________

Ref.

MW = 138.01 MW = 338.04

T B12 ± δB12 K cm3· mol-1 353.15 -263.7 ± 2 373.15 -227.9 ± 2

______________________________________________

Ref.

________________________________________

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -337.0 ± 2 94-web/def 338.15 -296.7 ± 2 94-web/def ___________

632

______________________________________________

C2F6 C6F14

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -536 ± 40 69-dan/kno

MW = 138.01 MW = 72.15

94-web/def 94-web/def

K 353.15 373.15

3

0.500 0.500

6

-2

10 · cm · mol 25.7 ± 0.5 22.9 ± 0.5

94-web/def 94-web/def

Landolt-Börnstein New Series IV/21B

311

3 Mixtures of Two Organic Compounds

Pentafluoroethane 1,1,1-Trifluoroethane

[354-33-6] [420-46-2]

C2HF5 C2H3F3

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 333.15 -280.0 ± 5.0 94-web/def 343.15 -267.6 ± 2.8 94-web/def 353.15 -246.2 ± 2.4 94-web/def

T K 363.15 373.15

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 333.15 0.510 -298.0 ± 1.0 94-web/def 343.15 0.510 -271.8 ± 1.0 94-web/def 353.15 0.510 -241.2 ± 1.0 94-web/def

T K 363.15 373.15

___________

___________

______________________________________________

__________________________________________

Table 5. Experimental Cm values with uncertainty. T x1 Ref. Cm ± δCm K 103· cm6· mol-2 343.15 0.510 27.3 ± 1.0 94-web/def 353.15 0.510 24.5 ± 1.0 94-web/def ___________

___________________________________________________________

1,1,1,2-Tetrafluoroethane 1,1-Difluoroethane

___________

___________

T K 363.15 373.15

T K 373.15

Table 3. Experimental Bm values with uncertainty. T x2 Ref. Bm ± δBm 3 -1 K cm · mol 353.15 0.503 -326.4 ± 0.5 94-web/def

T K 373.15

Table 5. Experimental Cm values with uncertainty. T x2 Ref. Cm ± δCm 3 6 -2 K 10 · cm · mol 353.15 0.503 31.8 ± 1.0 94-web/def

T K 373.15

___________

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

__________________________________________

_________________________________________________________

x1

___________

Ref. 94-web/def 94-web/def

Bm ± δBm cm3· mol-1 -234.6 ± 1.0 -219.1 ± 1.0

Ref.

__________________________________________

0.510 0.510

x1

Cm ± δCm 103· cm6· mol-2 23.5 ± 1.0 22.3 ± 1.0

94-web/def 94-web/def

Ref.

___________________________________________________________

0.510 0.510

C2H2F4 C2H4F2

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.15 -330.1 ± 1.0 94-web/def ___________

B12 ± δB12 cm3· mol-1 -230.6 ± 2.0 -214.4 ± 2.0

635

______________________________________________

___________

[811-97-2] [75-37-6]

MW = 120.02 MW = 84.04

94-web/def 94-web/def

MW = 102.03 MW = 66.05

B12 ± δB12 cm3· mol-1 -285.0 ± 1.0

636

Ref.

______________________________________________

x2

___________

94-web/def

Bm ± δBm cm3· mol-1 -282.0 ± 0.5

Ref.

__________________________________________

0.503

x2

___________

Cm ± δCm 10 · cm6· mol-2 28.8 ± 1.0

94-web/def

Ref.

_________________________________________________________

3

0.503

94-web/def

312

3 Mixtures of Two Organic Compounds

1,1,1,2-Tetrafluoroethane Propane

[811-97-2] [74-98-6]

C2H2F4 C3H8

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 299.93 -308.4 ± 5 95-mce 299.93 -308.8 ± 5 95-mce 313.15 -280.0 ± 5 95-mce 313.15 -280.8 ± 5 95-mce

T K 328.15 328.15 343.15 343.15

Table 4. Experimental BE values with uncertainty. T x1 BE ± δBE Ref. K cm3· mol-1 299.93 0.50 124.6 ± 1.5 95-mce 299.93 0.50 124.2 ± 1.5 95-mce 313.15 0.50 110.2 ± 1.5 95-mce 313.15 0.50 109.4 ± 1.5 95-mce

T K 328.15 328.15 343.15 343.15

___________

______________________________________________

___________

[75-05-8] [75-07-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 313.15 -8710 ± 150 60-pra/car 333.15 -6170 ± 150 60-pra/car ______________________________________________

Acetonitrile Propanone

T K 353.15 373.15

[75-05-8] [67-64-1]

[75-05-8] [79-20-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 273.15 -2280 ± 100 78-die/pat 393.35 -746 ± 60 89-olf/sch 406.65 -663 ± 60 89-olf/sch 406.65 -665 ± 60 89-olf/sch ___________

T K

______________________________________________

0.50 0.50 0.50 0.50

T K 419.95 419.95 433.15

95-mce 95-mce 95-mce 95-mce

BE ± δBE cm3· mol-1 96.3 ± 1.5 97.0 ± 1.5 85.6 ± 1.5 85.6 ± 1.5

Ref. 95-mce 95-mce 95-mce 95-mce

MW = 41.05 MW = 44.05

B12 ± δB12 cm3· mol-1 -3450 ± 150 -2390 ± 150

638

Ref.

______________________________________________

60-pra/car 60-pra/car

MW = 41.05 MW = 58.08

B12 ± δB12 cm3· mol-1

639

Ref.

______________________________________________

C2H3N C3H6O2

___________

Ref.

________________________________________

C2H3N C3H6O

___________

______________________________________________

Acetonitrile Methyl ethanoate

x1

C2H3N C2H4O

___________

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 273.15 -2465 ± 100 78-die/pat ___________

B12 ± δB12 cm3· mol-1 -252.8 ± 5 -252.1 ± 5 -228.3 ± 5 -228.3 ± 5

637

______________________________________________

___________

________________________________________

Acetonitrile Ethanal

___________

___________

MW = 102.03 MW = 44.10

MW = 41.05 MW = 74.08

B12 ± δB12 cm3· mol-1 -576 ± 60 -606 ± 60 -538 ± 60

640

Ref.

______________________________________________

89-olf/sch 89-olf/sch 89-olf/sch

cont. Landolt-Börnstein New Series IV/21B

313

3 Mixtures of Two Organic Compounds

Acetonitrile + Methyl ethanoate (cont.) Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 393.35 0.509 -943.3 ± 50 89-olf/sch 406.65 0.513 -831.3 ± 50 89-olf/sch 406.65 0.532 -848.4 ± 50 89-olf/sch ___________

__________________________________________

Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. 3 K 10 · cm6· mol-2 393.35 0.509 366.7 ± 60 89-olf/sch 406.65 0.513 365.5 ± 60 89-olf/sch 406.65 0.532 354.8 ± 60 89-olf/sch ___________

__ _______________________________________________________

Acetonitrile Butane

T K 419.35 419.95 433.15 ___________

T K 419.35 419.95 433.15 ___________

[75-05-8] [106-97-8]

Bm ± δBm cm3· mol-1 0.534 -742.0 ± 50 0.513 -741.0 ± 50 0.499 -650.7 ± 50 x1

Cm ± δCm 10 · cm6· mol-2 265.3 ± 60 230.7 ± 60 163.3 ± 60

x1 0.534 0.513 0.499

C2H3N C4H10

Table 3. Experimental Bm values with uncertainty. x1 T Bm ± δBm Ref. K cm3· mol-1 373.15 0.049 -421.1 ± 3 98-war 373.15 0.223 -447.9 ± 3 98-war 393.12 0.049 -371.3 ± 3 98-war 393.12 0.107 -364.8 ± 3 98-war 393.12 0.223 -382.7 ± 3 98-war 393.12 0.616 -747.4 ± 3 98-war 393.12 0.740 -956.3 ± 3 98-war

T K 413.12 413.12 413.12 413.12 413.12 433.11 433.11

x1

Table 5. Experimental Cm values with uncertainty. x1 T Cm ± δCm Ref. K 103· cm6· mol-2 373.15 0.049 48.3 ± 5.0 98-war 373.15 0.223 31.1 ± 3.0 98-war 393.12 0.049 40.9 ± 4.0 98-war 393.12 0.107 31.8 ± 3.0 98-war 393.12 0.223 25.9 ± 2.5 98-war 393.12 0.616 332.8 ± 33.0 98-war 393.12 0.740 621.9 ± 62.0 98-war

T K 413.12 413.12 413.12 413.12 413.12 433.11 433.11

___________

___________

Landolt-Börnstein New Series IV/21B

__________________________________________

___________________________________________________________

___________

___________

89-olf/sch 89-olf/sch 89-olf/sch

MW = 41.05 MW = 58.12

B12 ± δB12 cm3· mol-1 -173 ± 15 -143 ± 15

___________

Ref.

3

T K 413.12 433.11

______________________________________________

89-olf/sch 89-olf/sch 89-olf/sch

___________________________________________________________

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 373.15 -250 ± 20 98-war 393.12 -208 ± 20 98-war ___________

Ref.

__________________________________________

641

Ref.

______________________________________________

98-war 98-war

Bm ± δBm cm3· mol-1 -330.5 ± 3 -322.1 ± 3 -334.3 ± 3 -638.5 ± 3 -821.1 ± 3 -287.3 ± 3 -296.2 ± 3

Ref.

__________________________________________

0.049 0.107 0.223 0.616 0.740 0.107 0.242

x1

Cm ± δCm 103· cm6· mol-2 34.6 ± 3.5 24.1 ± 2.5 20.8 ± 2.0 314.3 ± 31.0 562.3 ± 56.0 12.6 ± 1.3 13.3 ± 1.3

98-war 98-war 98-war 98-war 98-war 98-war 98-war

Ref.

___________________________________________________________

0.049 0.107 0.223 0.616 0.740 0.107 0.242

98-war 98-war 98-war 98-war 98-war 98-war 98-war

314

3 Mixtures of Two Organic Compounds

Acetonitrile Cyclohexane

[75-05-8] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 326.00 -1020 ± 50 54-lam/mur ___________

______________________________________________

Ethene Ethane

T K 349.00 ___________

[74-85-1] [74-84-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -157.3 ± 1.2 81-ohg/miz ___________

C2H3N C6H12

C2H4 C2H6

T K 313.15 313.15 323.15 323.15 333.15 333.15

Table 5. Experimental Cm values with uncertainty. x1 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 283.15 0.363 8.3 ± 0.8 93-mce/fan 283.15 0.639 9.2 ± 0.9 93-mce/fan 293.15 0.373 9.7 ± 0.9 93-mce/fan 293.15 0.797 8.7 ± 0.8 93-mce/fan 303.15 0.392 8.9 ± 0.8 93-mce/fan 303.15 0.776 7.7 ± 0.8 93-mce/fan

T K 313.15 313.15 323.15 323.15 333.15 333.15

___________

__________________________________________

___________________________________________________________

Ethene Ethanol

___________

[74-85-1] [64-17-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.15 -243 ± 10 73-gup/les ___________

___________

______________________________________________

T K

54-lam/mur

643

Ref.

______________________________________________

x1

Bm ± δBm cm3· mol-1 -150.2 ± 9.0 -138.8 ± 8.6 -136.3 ± 8.4 -126.6 ± 8.1 -132.5 ± 8.3 -120.8 ± 7.8

Ref.

__________________________________________

0.32 0.65 0.38 0.65 0.31 0.67

x1

Cm ± δCm 10 · cm6· mol-2 8.4 ± 0.8 8.0 ± 0.8 6.9 ± 0.8 6.5 ± 0.7 8.3 ± 0.8 7.4 ± 0.8

93-mce/fan 93-mce/fan 93-mce/fan 93-mce/fan 93-mce/fan 93-mce/fan

Ref.

___________________________________________________________

3

0.323 0.651 0.375 0.651 0.310 0.665

C2H4 C2H6O

___________

Ref.

MW = 28.05 MW = 30.07

B12 ± δB12 cm3· mol-1

T K

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 283.15 0.36 -182.8 ± 10.3 93-mce/fan 283.15 0.64 -173.8 ± 10.0 93-mce/fan 293.15 0.37 -172.3 ± 9.9 93-mce/fan 293.15 0.80 -154.0 ± 9.2 93-mce/fan 303.15 0.39 -158.0 ± 9.3 93-mce/fan 303.15 0.78 -142.3 ± 8.7 93-mce/fan ___________

B12 ± δB12 cm3· mol-1 -850 ± 50

642

______________________________________________

___________

______________________________________________

MW = 41.05 MW = 84.16

MW = 28.05 MW = 46.07

B12 ± δB12 cm3· mol-1

93-mce/fan 93-mce/fan 93-mce/fan 93-mce/fan 93-mce/fan 93-mce/fan

644

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

315

3 Mixtures of Two Organic Compounds

Ethene Propene

[74-85-1] [115-07-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -220.9 ± 1.2 81-ohg/miz ___________

______________________________________________

Ethene Benzene

T K 398.15

______________________________________________

Ethene Naphthalene

______________________________________________

Ethene 1-Methylnaphthalene

______________________________________________

Ethene Bicyclohexyl

___________

Landolt-Börnstein New Series IV/21B

T K 326.0 333.0 337.2 342.5 ___________

T K 448.15 ___________

______________________________________________

T K 443.15

Ref. 82-ohg/nak-1

MW = 28.05 MW = 78.11

B12 ± δB12 cm3· mol-1

646

Ref.

MW = 28.05 MW = 128.17

B12 ± δB12 cm3· mol-1 -553 ± 12 -520 ± 12 -491 ± 10 -481 ± 12

647

Ref.

______________________________________________

66-naj/kin 66-naj/kin 62-kin/rob 66-naj/kin

MW = 28.05 MW = 142.20

B12 ± δB12 cm3· mol-1 -235 ± 15

648

Ref.

______________________________________________

C2H4 C12H22

___________

645

______________________________________________

C2H4 C11H10

[74-85-1] [92-51-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 323.15 -607 ± 25 78-kau/pra 383.15 -432 ± 25 78-kau/pra

B12 ± δB12 cm3· mol-1 -117.8 ± 0.6

C2H4 C10H8

[74-85-1] [90-12-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 348.15 -571 ± 20 78-kau/pra 398.15 -381 ± 16 78-kau/pra ___________

T K

___________

MW = 28.05 MW = 42.08

______________________________________________

C2H4 C6H6

[74-85-1] [91-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 296.2 -666 ± 25 62-kin/rob 296.5 -693 ± 6 66-naj/kin 298.0 -681 ± 10 66-naj/kin 308.0 -629 ± 9 66-naj/kin 312.5 -577 ± 23 66-naj/kin ___________

___________

[74-85-1] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -282 ± 5 69-coa/kin ___________

C2H4 C3H6

78-kau/pra

MW = 28.05 MW = 166.37

B12 ± δB12 cm3· mol-1 -257 ± 12

Ref.

______________________________________________

78-kau/pra

649

316

3 Mixtures of Two Organic Compounds

Ethene Diphenylmethane

[74-85-1] [101-81-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 338.15 -645 ± 27 78-kau/pra 393.15 -416 ± 22 78-kau/pra ___________

______________________________________________

Ethene Phenanthrene

______________________________________________

Ethene Anthracene

______________________________________________

Ethene Hexadecane

______________________________________________

B12 ± δB12 cm3· mol-1 -293 ± 10

T K 423.00 445.00 453.00 ___________

T K 448.15

78-kau/pra

651

Ref.

______________________________________________

70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin 70-bra/kin

MW = 28.05 MW = 178.23

B12 ± δB12 cm3· mol-1 -386 ± 12 -356 ± 12 -352 ± 12

652

Ref.

______________________________________________

C2H4 C16H34

___________

650

Ref.

MW = 28.05 MW = 178.23

B12 ± δB12 cm3· mol-1 -623 ± 24 -639 ± 24 -607 ± 24 -593 ± 24 -605 ± 24 -548 ± 24 -528 ± 24 -462 ± 24 -385 ± 24

C2H4 C14H10

[74-85-1] [544-76-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 348.15 -735 ± 32 78-kau/pra 398.15 -524 ± 31 78-kau/pra ___________

T K 349.00 350.00 357.00 358.00 361.00 367.00 380.00 395.00 415.00 ___________

MW = 28.05 MW = 168.24

______________________________________________

C2H4 C14H10

[74-85-1] [120-12-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 338.00 -686 ± 12 70-naj/kin 348.00 -657 ± 12 70-naj/kin 373.00 -552 ± 12 70-naj/kin 398.00 -448 ± 12 70-naj/kin ___________

T K 448.15 ___________

[74-85-1] [85-01-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 310.00 -884 ± 24 70-bra/kin 315.00 -817 ± 24 70-bra/kin 317.00 -827 ± 24 70-bra/kin 321.00 -855 ± 24 70-bra/kin 323.00 -786 ± 24 70-bra/kin 326.00 -751 ± 24 70-bra/kin 329.00 -814 ± 24 70-bra/kin 334.00 -734 ± 24 70-bra/kin 345.00 -674 ± 24 70-bra/kin 347.00 -659 ± 24 70-bra/kin ___________

C2H4 C13H12

70-naj/kin 70-naj/kin 70-naj/kin

MW = 28.05 MW = 226.45

B12 ± δB12 cm3· mol-1 -357 ± 20

653

Ref.

______________________________________________

78-kau/pra

Landolt-Börnstein New Series IV/21B

317

3 Mixtures of Two Organic Compounds

Oxirane Diethyl ether

[75-21-8] [60-29-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -692 ± 40 66-str-3 323.15 -562 ± 40 66-str-3 ___________

______________________________________________

Methyl methanoate Propyl methanoate

______________________________________________

Bromoethane Diethyl ether

T K 348.15 373.15 ___________

______________________________________________

Bromoethane Pentane

T K 313.10

[74-96-4] [109-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.10 -945 ± 25 65-rae/bit ___________

Chloroethane 1-Chloropropane

[75-00-3] [540-54-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 303.20 -803 ± 26 68-rae 313.20 -774 ± 16 68-rae ___________

Landolt-Börnstein New Series IV/21B

T K

______________________________________________

T K 333.20

Ref. 66-str-3 66-str-3

MW = 60.05 MW = 88.11

B12 ± δB12 cm3· mol-1 -799 ± 43 -655 ± 46

655

Ref. 67-str-4 67-str-4

MW = 108.97 MW = 74.12

B12 ± δB12 cm3· mol-1 -1160 ± 78

656

Ref.

______________________________________________

65-rae/bit

MW = 108.97 MW = 72.15

B12 ± δB12 cm3· mol-1

657

Ref.

______________________________________________

C2H5Cl C3H7Cl

___________

654

______________________________________________

C2H5Br C5H12

___________

______________________________________________

B12 ± δB12 cm3· mol-1 -468 ± 50 -441 ± 35

C2H5Br C4H10O

___________

MW = 44.05 MW = 74.12

______________________________________________

C2H4O2 C4H8O2

[74-96-4] [60-29-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 293.10 -1356 ± 38 65-rae/bit ___________

T K 348.15 368.15 ___________

[107-31-3] [110-74-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -1133 ± 40 67-str-4 323.15 -1145 ± 5 67-str-4 ___________

C2H4O C4H10O

MW = 64.51 MW = 78.54

B12 ± δB12 cm3· mol-1 -683 ± 12

Ref.

______________________________________________

68-rae

658

318

3 Mixtures of Two Organic Compounds

Chloroethane 2-Chloro-2-methylpropane

[75-00-3] [507-20-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 313.20 -712 ± 10 68-rae ___________

______________________________________________

Nitroethane Cyclohexane

T K 333.20 ___________

[79-24-3] [110-82-7]

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 298.21 0.500 1954 ± 150 83-mar/rog 298.28 0.500 2145 ± 150 83-mar/rog 323.16 0.500 1206 ± 60 83-mar/rog 323.17 0.500 1210 ± 60 83-mar/rog ___________

[74-84-0] [64-17-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -276 ± 13 73-gup/les 323.15 -200 ± 7 73-gup/les ______________________________________________

Ethane Propene

___________

Ethane Propane

______________________________________________

x1

T K 348.15 ___________

T K 444.30 477.60

[74-84-0] [74-98-6]

0.500 0.500 0.500

Ref. 68-rae

MW = 75.07 MW = 84.16 BE ± δBE cm3· mol-1 893 ± 50 839 ± 50 947 ± 50

660

Ref. 83-mar/rog 83-mar/rog 83-mar/rog

MW = 30.07 MW = 46.07

B12 ± δB12 cm3· mol-1 -190 ± 7

661

Ref.

______________________________________________

C2H6 C2H6

___________

659

________________________________________

C2H6 C2H6O

[74-84-0] [115-07-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -245.6 ± 1.4 81-ohg/miz 377.60 -146.3 ± 15.0 58-gun 410.90 -120.7 ± 15.0 58-gun

B12 ± δB12 cm3· mol-1 -591 ± 13

C2H5NO2 C6H12

T K 348.38 348.38 348.39

MW = 64.51 MW = 92.57

______________________________________________

___________

________________________________________

Ethane Ethanol

___________

C2H5Cl C4H9Cl

73-gup/les

MW = 30.07 MW = 42.08

B12 ± δB12 cm3· mol-1 -102.7 ± 10.0 -82.3 ± 10.0

662

Ref.

______________________________________________

C2H6 C3H8

58-gun 58-gun

MW = 30.07 MW = 44.10

663

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.7832 ⋅ 102 − 1.6449 ⋅ 105/(T/K) cont. Landolt-Börnstein New Series IV/21B

319

3 Mixtures of Two Organic Compounds

Ethane + Propane (cont.) Table 1. (cont.) T/K (B12 ± 2σest)/cm3· mol-1 275 -319.8 ± 5 300 -270.0 ± 4

T/K 350 375

(B12 ± 2σest)/cm3· mol-1 -191.7 ± 3 -160.3 ± 2

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -327 ± 30 -2.6 88-jae/aud(◊) 273.92 -322 ± 1 0.2 88-fon/mar(▲) 275.17 -323 ± 1 -3.2 88-fon/mar(▲) 275.64 -319 ± 1 -0.4 88-fon/mar(▲) 281.57 -302 ± 1 3.6 88-fon/mar(▲) 288.54 -289 ± 1 2.8 88-fon/mar(▲) 288.70 -284 ± 5 7.3 61-mas/eak(‹) 293.15 -284 ± 26 -1.1 88-jae/aud(◊) 298.15 -274 ± 27 -0.6 68-dan/kno-1(„) 305.22 -257 ± 1 3.4 88-fon/mar(▲) 313.15 -247 ± 22 0.5 88-jae/aud(◊) 316.14 -243 ± 1 -0.9 88-fon/mar(▲) 316.14 -244 ± 1 -1.6 88-fon/mar(▲) 316.15 -243 ± 1 -0.9 88-fon/mar(▲) _________

______________________________________

_____________________________________

T K 320.72 320.73 323.15 325.01 327.77 329.33 332.99 333.15 340.75 347.53 348.15 355.96 373.15 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -237 ± 1 -2.5 -239 ± 1 -4.0 -230 ± 23 0.7 -227 ± 1 1.2 -222 ± 1 1.6 -219 ± 1 2.1 -214 ± 1 1.5 -214 ± 18 1.2 -204 ± 1 0.2 -195 ± 1 -0.3 -193 ± 19 1.1 -183 ± 1 1.2 -165 ± 16 -2.5 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-fon/mar(▲) 88-fon/mar(▲) 68-dan/kno-1(„) 88-fon/mar(▲) 88-fon/mar(▲) 88-fon/mar(▲) 88-fon/mar(▲) 88-jae/aud(◊) 88-fon/mar(▲) 88-fon/mar(▲) 68-dan/kno-1(„) 88-fon/mar(▲) 68-dan/kno-1(„)

40 (B 12 - B 12calc)/cm3·mol-1

30 20 10 0 -10 -20 -30 -40 260

280

300

320

340

360

380

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 298.15 0.500 17.0 ± 1.0 68-dan/kno-1 323.15 0.500 14.0 ± 1.0 68-dan/kno-1 ___________

Landolt-Börnstein New Series IV/21B

________________________________________

T K 348.15 373.15 ___________

x1

BE ± δBE cm3· mol-1 12.0 ± 2.0 10.0 ± 1.0

Ref.

________________________________________

0.500 0.500

68-dan/kno-1 68-dan/kno-1 cont.

320

3 Mixtures of Two Organic Compounds

Ethane + Propane (cont.) Table 6. Experimental C112 values with uncertainty. Ref. T C112 ± δC112 K 103· cm6· mol-2 273.15 10.6 ± 1.0 88-jae/aud 293.15 12.3 ± 1.0 88-jae/aud

T K 313.15 333.15

C112 ± δC112 103· cm6· mol-2 12.8 ± 1.0 12.0 ± 1.0

Table 7. Experimental C122 values with uncertainty. Ref. T C122 ± δC122 3 6 -2 K 10 · cm · mol 273.15 10.5 ± 1.0 88-jae/aud 293.15 14.2 ± 1.5 88-jae/aud

T K 313.15 333.15

C122 ± δC122 103· cm6· mol-2 16.1 ± 1.5 16.2 ± 1.5

___________

___________

__________________________________________________________

__________________________________________________________

Ethane Decafluorobutane

___________

___________

[74-84-0] [355-25-9]

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.500 178 ± 1 71-dan/kno

___________

___________

___________

T K

________________________________________

Ethane Butane

[74-84-0] [106-97-8]

Ref. 88-jae/aud 88-jae/aud

MW = 30.07 MW = 238.03

B12 ± δB12 cm3· mol-1

T K

______________________________________________

88-jae/aud 88-jae/aud

__________________________________________________________

C2H6 C4F10

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -273 ± 10 71-dan/kno

Ref.

__________________________________________________________

664

Ref.

______________________________________________

BE ± δBE cm3· mol-1

x1

Ref.

________________________________________

C2H6 C4H10

MW = 30.07 MW = 58.12

665

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 2.3606 ⋅ 102 − 1.7765 ⋅ 105/(T/K) T/K 275 300

(B12 ± 2σest)/cm3· mol-1 -409.9 ± 30 -356.1 ± 25

T/K 350 375

(B12 ± 2σest)/cm3· mol-1 -271.5 ± 20 -237.7 ± 20

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -452 ± 34 -37.7 88-jae/aud(◊) 288.70 -374 ± 5 5.3 61-mas/eak(‹) 293.15 -384 ± 30 -14.1 88-jae/aud(◊) 298.15 -362 ± 36 -2.2 68-dan/kno-1(„) 304.50 -332 ± 10 15.4 79-wor/lew(▲) 313.15 -330 ± 26 1.2 88-jae/aud(◊) _________

______________________________________

_____________________________________

T K 323.15 333.15 333.20 348.15 363.20 373.15 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -307 ± 30 6.7 -291 ± 22 6.2 -333 ± 9 -35.9 -258 ± 26 16.2 -233 ± 9 20.1 -215 ± 22 25.0 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 68-dan/kno-1(„) 88-jae/aud(◊) 79-wor/lew(▲) 68-dan/kno-1(„) 79-wor/lew(▲) 68-dan/kno-1(„) cont. Landolt-Börnstein New Series IV/21B

321

3 Mixtures of Two Organic Compounds

Ethane + Butane (cont.) 60

20

3

(B 12 - B 12calc)/cm ·mol

-1

40

0 -20 -40 -60 -80 270

290

310

330 T/K

350

370

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 298.15 0.500 92 ± 1 68-dan/kno-1 323.15 0.500 72 ± 2 68-dan/kno-1 ___________

________________________________________

Ethane Diethyl ether

[74-84-0] [60-29-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 298.15 -388 ± 30 73-mas/kin ___________

______________________________________________

Ethane 1-Butanol

Landolt-Börnstein New Series IV/21B

______________________________________________

x1

T K

___________

0.500 0.500

T K

Ref. 68-dan/kno-1 68-dan/kno-1

MW = 30.07 MW = 74.12

B12 ± δB12 cm3· mol-1

666

Ref.

______________________________________________

C2H6 C4H10O

___________

BE ± δBE cm3· mol-1 60 ± 1 54 ± 2 ________________________________________

C2H6 C4H10O

[74-84-0] [71-36-3]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 298.15 -375 ± 35 73-mas/kin ___________

T K 348.15 373.15 ___________

MW = 30.07 MW = 74.12

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

667

322

3 Mixtures of Two Organic Compounds

Ethane Pentane

[74-84-0] [109-66-0]

C2H6 C5H12

MW = 30.07 MW = 72.15

668

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 9.9870 ⋅ 102 + 6.7418 ⋅ 105/(T/K) − 1.5158 ⋅ 108/(T/K)2 (B12 ± 2σest)/cm3· mol-1 -551.5 ± 45 -435.7 ± 40

T/K 275 300

T/K 350 375

(B12 ± 2σest)/cm3· mol-1 -309.9 ± 30 -278.8 ± 25

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -572 ± 45 -10.0 88-jae/aud(▲) 293.15 -482 ± 40 -19.3 88-jae/aud(▲) 298.15 -448 ± 45 -5.3 68-dan/kno-1(‹) 298.15 -386 ± 30 56.7 73-mas/kin1 298.20 -414 ± 171 28.5 68-pec/win1 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 313.15 323.15 348.15 373.15 _________

(B12 ± 2σest)/cm3· mol-1

T/K

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -407 ± 35 -15.7 -377 ± 38 -13.0 -315 ± 32 -2.2 -272 ± 27 8.6 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 88-jae/aud(▲) 68-dan/kno-1(‹) 68-dan/kno-1(‹) 68-dan/kno-1(‹)

80

-1

20

(B 12 - B 12calc)/cm ·mol

40

3

60

0 -20 -40 -60 -80 270

290

310

330

350

370

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 298.15 0.500 242 ± 3 68-dan/kno-1 323.15 0.500 192 ± 2 68-dan/kno-1 ___________

________________________________________

T K 348.15 373.15 ___________

x1

BE ± δBE cm3· mol-1 158 ± 2 129 ± 2

Ref.

________________________________________

0.500 0.500

68-dan/kno-1 68-dan/kno-1

Landolt-Börnstein New Series IV/21B

323

3 Mixtures of Two Organic Compounds

Ethane Hexane

[74-84-0] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -540 ± 54 68-dan/kno-1 323.15 -458 ± 46 68-dan/kno-1 348.15 -373 ± 37 68-dan/kno-1 372.20 -330 ± 18 79-wor/lew ___________

______________________________________________

B12 ± δB12 cm3· mol-1 -319 ± 32 -310 ± 15 -274 ± 13

T K 348.15 373.15

x1

[74-84-0] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 403.20 -354 ± 64 79-wor/lew ___________

______________________________________________

Ethane Naphthalene

[74-84-0] [91-20-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 299.00 -724 ± 10 68-kin-1 301.00 -699 ± 10 68-kin-1 309.50 -642 ± 18 68-kin-1 318.00 -608 ± 8 68-kin-1 ___________

______________________________________________

Ethane 1-Methylnaphthalene

Landolt-Börnstein New Series IV/21B

______________________________________________

0.500 0.500

T K 323.00 330.00 340.00 ___________

T K 448.15

BE ± δBE cm3· mol-1 312 ± 2 254 ± 2

Ref. 68-dan/kno-1 68-dan/kno-1

MW = 30.07 MW = 114.23

B12 ± δB12 cm3· mol-1 -331 ± 51

670

Ref. 79-wor/lew

MW = 30.07 MW = 128.17

B12 ± δB12 cm3· mol-1 -579 ± 10 -562 ± 10 -528 ± 10

671

Ref.

______________________________________________

C2H6 C11H10

___________

68-dan/kno-1 79-wor/lew 79-wor/lew

______________________________________________

C2H6 C10H8

[74-84-0] [90-12-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 348.15 -672 ± 28 78-kau/pra 398.15 -462 ± 23 78-kau/pra ___________

T K 413.20

Ref.

________________________________________

C2H6 C8H18

___________

669

______________________________________________

___________

________________________________________

Ethane Octane

MW = 30.07 MW = 86.18

T K 373.15 383.20 403.20 ___________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 298.15 0.500 510 ± 30 68-dan/kno-1 323.15 0.500 386 ± 5 68-dan/kno-1 ___________

C2H6 C6H14

68-kin-1 68-kin-1 68-kin-1

MW = 30.07 MW = 142.20

B12 ± δB12 cm3· mol-1 -322 ± 15

Ref.

______________________________________________

78-kau/pra

672

324

3 Mixtures of Two Organic Compounds

Ethane Bicyclohexyl

[74-84-0] [92-51-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -777 ± 32 78-kau/pra 383.15 -545 ± 27 78-kau/pra ___________

______________________________________________

Ethane Diphenylmethane

______________________________________________

Ethane Anthracene

______________________________________________

Ethane Hexadecane

______________________________________________

Ethane Eicosane

___________

T K 398.00 423.00 448.00 ___________

T K 448.15 ___________

______________________________________________

T K 508.15 543.15

78-kau/pra

674

Ref.

______________________________________________

78-kau/pra

MW = 30.07 MW = 178.23

B12 ± δB12 cm3· mol-1 -526 ± 12 -452 ± 12 -419 ± 12

675

Ref.

______________________________________________

70-naj/kin 70-naj/kin 70-naj/kin

MW = 30.07 MW = 226.45

B12 ± δB12 cm3· mol-1 -434 ± 21

676

Ref.

______________________________________________

C2H6 C20H42

___________

673

Ref.

MW = 30.07 MW = 168.24

B12 ± δB12 cm3· mol-1 -343 ± 20

C2H6 C16H34

[74-84-0] [112-95-8]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 438.15 -517 ± 25 78-kau/pra 473.15 -402 ± 20 78-kau/pra

B12 ± δB12 cm3· mol-1 -326 ± 15

C2H6 C14H10

[74-84-0] [544-76-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 348.15 -928 ± 40 78-kau/pra 398.15 -645 ± 30 78-kau/pra ___________

T K 448.15 ___________

MW = 30.07 MW = 166.37

______________________________________________

C2H6 C13H12

[74-84-0] [120-12-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 336.00 -781 ± 12 70-naj/kin 348.00 -719 ± 12 70-naj/kin 373.00 -619 ± 12 70-naj/kin ___________

T K 443.15 ___________

[74-84-0] [101-81-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 338.15 -734 ± 35 78-kau/pra 393.15 -481 ± 35 78-kau/pra ___________

C2H6 C12H22

78-kau/pra

MW = 30.07 MW = 282.55

B12 ± δB12 cm3· mol-1 -336 ± 15 -256 ± 10

677

Ref.

______________________________________________

78-kau/pra 78-kau/pra

Landolt-Börnstein New Series IV/21B

325

3 Mixtures of Two Organic Compounds

Ethane [74-84-0] 2,6,10,15,19,23-Hexamethyltetracosane [111-01-3] Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 503.15 -293 ± 20 78-kau/pra ___________

______________________________________________

Dimethyl ether 1H-Perfluoropropane

[115-10-6] [2252-84-8]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 283.15 -1280 ± 50 62-tri/dun 283.15 -1224 ± 50 62-tri/dun 283.15 -1362 ± 50 62-tri/dun 303.03 -951 ± 50 62-tri/dun 303.03 -920 ± 50 62-tri/dun ___________

______________________________________________

Ethanol Pentylamine

T K 303.03 323.20 323.20 323.20 ___________

[64-17-5] [110-58-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 363.15 -1112 ± 160 89-abu/ver-1 ___________

T K 545.15 ___________

______________________________________________

Ethanol Benzene

MW = 30.07

C30H62

MW = 422.82

B12 ± δB12 cm3· mol-1 -165 ± 10

___________

678

Ref.

______________________________________________

C2H6O C3HF7

78-kau/pra

MW = 46.07 MW = 170.03

B12 ± δB12 cm3· mol-1 -1080 ± 50 -676 ± 50 -662 ± 50 -800 ± 50

679

Ref.

______________________________________________

C2H6O C5H13N

T K 363.15

[64-17-5] [71-43-2]

C2H6

62-tri/dun 62-tri/dun 62-tri/dun 62-tri/dun

MW = 46.07 MW = 87.16

B12 ± δB12 cm3· mol-1 -1138 ± 160

680

Ref.

______________________________________________

C2H6O C6H6

89-abu/ver-1

MW = 46.07 MW = 78.11

681

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 4.5376 ⋅ 102 − 3.5275 ⋅ 105/(T/K) T/K 350 400

(B12 ± 2σest)/cm3· mol-1 -554.1 ± 40 -428.1 ± 30

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -330.1 ± 25 -251.7 ± 20

T/K 525

(B12 ± 2σest)/cm3· mol-1 -218.1 ± 20

cont. Landolt-Börnstein New Series IV/21B

326

3 Mixtures of Two Organic Compounds

Ethanol + Benzene (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 333.15 -567 ± 52 38.1 68-kno/edm(‹) 353.15 -421 ± 52 124.1 68-kno/edm1 363.20 -562 ± 55 -44.5 97-wor/sow(„) 368.20 -542 ± 55 -37.7 97-wor/sow(„) 373.15 -490 ± 52 1.6 68-kno/edm(‹) 373.20 -523 ± 50 -31.6 97-wor/sow(„) 378.20 -505 ± 50 -26.1 97-wor/sow(„) 383.20 -488 ± 45 -21.2 97-wor/sow(„) 393.20 -457 ± 45 -13.6 97-wor/sow(„) 403.20 -428 ± 40 -6.9 97-wor/sow(„) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -403 ± 40 -3.1 -379 ± 35 0.8 -357 ± 35 3.5 -286 ± 30 5.7 -271 ± 25 5.3 -258 ± 25 3.5 -245 ± 20 2.3 -233 ± 20 0.6 -221 ± 20 -0.5

T K 413.20 423.20 433.20 473.20 483.20 493.20 503.20 513.20 523.20 _________

______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 97-wor/sow(„) 97-wor/sow(„) 97-wor/sow(„) 97-wor/sow(„) 97-wor/sow(„) 97-wor/sow(„) 97-wor/sow(„) 97-wor/sow(„) 97-wor/sow(„)

100 80 (B 12 - B 12calc)/cm 3·mol-1

60 40 20 0 -20 -40 -60 -80 -100 320

360

400

440

480

520

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Ethanol Cyclohexane

[64-17-5] [110-82-7]

C2H6O C6H12

MW = 46.07 MW = 86.16

682

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 7.8868 ⋅ 10 − 2.2292 ⋅ 104/(T/K) − 5.9299 ⋅ 107/(T/K)2 T/K 375 400

(B12 ± 2σest)/cm3· mol-1 -402.3 ± 35 -347.5 ± 30

T/K 450 500

(B12 ± 2σest)/cm3· mol-1 -263.5 ± 25 -202.9 ± 20

T/K 525

(B12 ± 2σest)/cm3· mol-1 -178.7 ± 20 cont. Landolt-Börnstein New Series IV/21B

327

3 Mixtures of Two Organic Compounds

Ethanol + Cyclohexane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 363.20 -432 ± 40 0.0 97-wor/sow(▲) 368.20 -419 ± 40 0.1 97-wor/sow(▲) 373.20 -407 ± 40 -0.4 97-wor/sow(▲) 378.20 -395 ± 35 -0.3 97-wor/sow(▲) 383.20 -383 ± 35 0.1 97-wor/sow(▲) 393.20 -361 ± 35 0.4 97-wor/sow(▲) 403.20 -341 ± 30 0.2 97-wor/sow(▲) 413.20 -322 ± 30 0.4 97-wor/sow(▲) _________

______________________________________

_____________________________________

T K 423.20 433.20 483.20 493.20 503.20 513.20 523.20 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -305 ± 30 -0.1 -289 ± 25 -0.4 -221 ± 20 0.2 -210 ± 20 0.1 -200 ± 20 -0.4 -190 ± 20 -0.3 -180 ± 20 0.4 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 97-wor/sow(▲) 97-wor/sow(▲) 97-wor/sow(▲) 97-wor/sow(▲) 97-wor/sow(▲) 97-wor/sow(▲) 97-wor/sow(▲)

50

(B 12 - B 12calc)/cm3·mol-1

40 30 20 10 0 -10 -20 -30 -40 -50 350

370

390

410

430

450

470

490

510

530

550

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Ethanol Hexane

[64-17-5] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.15 -2140 ± 64 73-mar/bai ___________

Landolt-Börnstein New Series IV/21B

______________________________________________

C2H6O C6H14 T K

___________

MW = 46.07 MW = 86.18

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

683

328

3 Mixtures of Two Organic Compounds

Octafluoropropane Propane

[76-19-7] [74-98-6]

C3F8 C3H8

MW = 188.02 MW = 44.10

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -311 ± 20 71-dan/kno

T K 373.15

B12 ± δB12 cm3· mol-1 -212 ± 20

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 323.15 0.500 70 ± 1 71-dan/kno

T K 373.15

x1

___________

___________

______________________________________________

________________________________________

Propene Propane

___________

___________

[115-07-1] [74-98-6] T K 407.52 407.53 423.00

Table 3. Experimental Bm values with uncertainty. x2 Ref. T Bm ± δBm K cm3· mol-1 393.19 0.381 -197 ± 2.5 78-war/wie-1 393.19 0.381 -199 ± 3.0 78-war/wie-1 393.29 0.385 -196 ± 2.5 78-war/wie-1 393.29 0.385 -198 ± 3.0 78-war/wie-1 407.50 0.443 -184 ± 2.5 78-war/wie-1 407.50 0.443 -185 ± 3.0 78-war/wie-1 407.52 0.457 -184 ± 2.5 78-war/wie-1

T K 407.52 407.53 407.53 422.99 422.99 423.00

Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm 3 6 -2 K 10 · cm · mol 393.19 0.381 15.9 ± 0.5 78-war/wie-1 393.19 0.381 16.6 ± 0.6 78-war/wie-1 393.29 0.385 15.6 ± 0.5 78-war/wie-1 393.29 0.385 16.4 ± 0.6 78-war/wie-1 407.50 0.443 15.3 ± 0.5 78-war/wie-1 407.50 0.443 15.9 ± 0.6 78-war/wie-1 407.52 0.457 15.2 ± 0.5 78-war/wie-1

T K 407.52 407.53 407.53 422.99 422.99 423.00

___________

___________

___________

______________________________________________

__________________________________________

___________________________________________________________

___________

___________

___________

Ref.

______________________________________________

71-dan/kno

BE ± δBE cm3· mol-1 54 ± 1

Ref.

________________________________________

0.500

C3H6 C3H8

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 393.19 -199.0 ± 3 78-war/wie-1 288.70 -407.1 ± 5 61-mas/eak 393.29 -196.3 ± 3 78-war/wie-1 407.50 -185.8 ± 3 78-war/wie-1

684

71-dan/kno

MW = 42.08 MW = 44.10

B12 ± δB12 cm3· mol-1 -185.1 ± 3 -184.6 ± 3 -169.7 ± 3

685

Ref.

______________________________________________

x2

78-war/wie-1 78-war/wie-1 78-war/wie-1

Bm ± δBm cm3· mol-1 -186 ± 3.0 -188 ± 2.5 -190 ± 3.0 -173 ± 2.5 -174 ± 3.0 -169 ± 2.5

Ref.

__________________________________________

0.457 0.666 0.666 0.637 0.637 0.488

x2

Cm ± δCm 103· cm6· mol-2 16.3 ± 0.6 15.7 ± 0.5 16.4 ± 0.6 14.9 ± 0.5 15.5 ± 0.6 14.6 ± 0.5

78-war/wie-1 78-war/wie-1 78-war/wie-1 78-war/wie-1 78-war/wie-1 78-war/wie-1

Ref.

___________________________________________________________

0.457 0.666 0.666 0.637 0.637 0.488

78-war/wie-1 78-war/wie-1 78-war/wie-1 78-war/wie-1 78-war/wie-1 78-war/wie-1

Landolt-Börnstein New Series IV/21B

329

3 Mixtures of Two Organic Compounds

Propene Butane

[115-07-1] [106-97-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 288.70 -529.6 ± 5.0 61-mas/eak ___________

[115-07-1] [75-28-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 288.70 -510.5 ± 5.0 61-mas/eak ___________

Propene 1-Heptene

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 324.30 -983 ± 20 64-mcg/wor 328.70 -929 ± 19 64-mcg/wor 333.20 -882 ± 17 64-mcg/wor 338.50 -850 ± 17 64-mcg/wor 344.80 -806 ± 16 64-mcg/wor 348.80 -783 ± 16 64-mcg/wor 355.50 -751 ± 15 64-mcg/wor ___________

______________________________________________

Propanone Methyl ethanoate

______________________________________________

Table 3. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 348.30 0.500 76.3 ± 15 83-mce/has ___________

Landolt-Börnstein New Series IV/21B

T K 363.20 374.30 384.60 394.60 403.30 411.50

________________________________________

MW = 42.08 MW = 98.19

B12 ± δB12 cm3· mol-1 -702 ± 14 -659 ± 13 -616 ± 12 -571 ± 11 -534 ± 11 -506 ± 10

688

Ref. 64-mcg/wor 64-mcg/wor 64-mcg/wor 64-mcg/wor 64-mcg/wor 64-mcg/wor

MW = 58.08 MW = 74.08

B12 ± δB12 cm3· mol-1

T K

___________

T K 373.64

Ref.

______________________________________________

C3H6O C3H6O2

___________

687

______________________________________________

C3H6 C7H14

___________

Ref.

MW = 42.08 MW = 58.12

B12 ± δB12 cm3· mol-1

T K

[67-64-1] [79-20-9]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 273.15 -905 ± 50 78-die/pat ___________

C3H6 C4H10

[115-07-1] [592-76-7]

686

______________________________________________

___________

______________________________________________

MW = 42.08 MW = 58.12

B12 ± δB12 cm3· mol-1

T K

___________

______________________________________________

Propene 2-Methylpropane

C3H6 C4H10

689

Ref.

______________________________________________

BE ± δBE cm3· mol-1 0.500 49.0 ± 15 x1

Ref.

________________________________________

83-mce/has

330

3 Mixtures of Two Organic Compounds

Propanone Butane

[67-64-1] [106-97-8]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 282.30 -805.0 ± 50.3 63-kap/lun 297.00 -656.0 ± 42.8 63-kap/lun ___________

______________________________________________

Propanone Tetradecafluorohexane

C3H6O C4H10

T K 312.00 321.00 ___________

[67-64-1] [355-42-0]

MW = 58.08 MW = 58.12

B12 ± δB12 cm3· mol-1 -569.0 ± 38.5 -504.0 ± 35.2

C3H6O C6F14

B12 ± δB12 cm3· mol-1 -620 ± 15 -500 ± 14

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 308.00 0.500 980 ± 100 80-pas/han 323.00 0.500 802 ± 40 80-pas/han

T K 348.00 373.00

x1

___________

________________________________________

Propanone Benzene

___________

___________

[67-64-1] [71-43-2]

63-kap/lun 63-kap/lun

MW = 58.08 MW = 338.04

T K 348.00 373.00

______________________________________________

Ref.

______________________________________________

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 308.00 -860 ± 20 80-pas/han 323.00 -800 ± 15 80-pas/han ___________

690

691

Ref.

______________________________________________

80-pas/han 80-pas/han

BE ± δBE cm3· mol-1 652 ± 20 480 ± 5

Ref.

________________________________________

0.500 0.500

C3H6O C6H6

80-pas/han 80-pas/han

MW = 58.08 MW = 78.11

692

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.4272 ⋅ 103 − 7.9349 ⋅ 105/(T/K) T/K 300 320

(B12 ± 2σest)/cm3· mol-1 -1217.8 ± 80 -1052.5 ± 70

T/K 340 360

(B12 ± 2σest)/cm3· mol-1 -906.6 ± 60 -776.9 ± 50

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 313.15 -1372 ± 52 -265.3 68-kno/edm1 333.15 -930 ± 52 24.6 68-kno/edm(„) 353.15 -642 ± 20 177.7 65-cha/wan1 353.15 -698 ± 52 121.7 68-kno/edm1 353.20 -910 ± 50 -90.6 64-zaa/bel1 353.20 -781 ± 60 38.4 98-wor/may(▲) 363.20 -807 ± 50 -49.5 64-zaa/bel(‹) 363.20 -725 ± 60 32.5 98-wor/may(▲) 1 Not included in Figure 1. _________

______________________________________

_____________________________________

T K 373.15 373.20 373.20 383.20 383.20 393.20 403.20 _________

T/K 380 400

(B12 ± 2σest)/cm3· mol-1 -660.9 ± 50 -556.5 ± 50

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -593 ± 52 106.3 -735 ± 50 -36.0 -677 ± 50 22.0 -710 ± 50 -66.5 -634 ± 50 9.5 -595 ± 40 -4.2 -561 ± 40 -20.2 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 68-kno/edm1 64-zaa/bel(‹) 98-wor/may(▲) 64-zaa/bel(‹) 98-wor/may(▲) 98-wor/may(▲) 98-wor/may(▲)

cont. Landolt-Börnstein New Series IV/21B

331

3 Mixtures of Two Organic Compounds

Propanone + Benzene (cont.) 120

(B 12 - B 12calc)/cm3·mol-1

80 40 0 -40 -80 -120 300

320

340

360

380

400

420

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.)

Propanone Cyclohexane

[67-64-1] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 326.00 -1010 ± 50 54-lam/mur 349.00 -850 ± 50 54-lam/mur 353.20 -624 ± 70 98-wor/may 363.20 -589 ± 60 98-wor/may ___________

______________________________________________

Propanone Hexane

Landolt-Börnstein New Series IV/21B

T K 373.20 383.20 393.20 403.20 ___________

[67-64-1] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 352.95 -865 ± 20 87-spi/gau ___________

C3H6O C6H12

______________________________________________

B12 ± δB12 cm3· mol-1 -552 ± 50 -524 ± 50 -502 ± 40 -481 ± 50

T K

693

Ref.

______________________________________________

C3H6O C6H14

___________

MW = 58.08 MW = 84.16

98-wor/may 98-wor/may 98-wor/may 98-wor/may

MW = 58.08 MW = 86.18

B12 ± δB12 cm3· mol-1

______________________________________________

Ref.

694

332

3 Mixtures of Two Organic Compounds

Propanone 1H-Perfluoroheptane

[67-64-1] [375-83-7]

C3H6O C7HF15

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.00 -2900 ± 300 80-pas/han 323.00 -2280 ± 20 80-pas/han

T K 348.00 373.00

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 308.00 0.500 -220 ± 40 80-pas/han 323.00 0.500 -50 ± 20 80-pas/han

T K 348.00 373.00

___________

_____________________________________________

___________

________________________________________

Methyl ethanoate Diethyl ether

___________

___________

[79-20-9] [60-29-7] T K 344.96 344.97 363.26

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 302.79 0.500 133.0 ± 1.5 90-mce/rob 302.93 0.500 128.0 ± 1.5 90-mce/rob 322.74 0.500 97.0 ± 1.5 90-mce/rob 322.75 0.500 97.0 ± 1.5 90-mce/rob

T K 344.96 344.97 363.26

___________

______________________________________________

___________

________________________________________

Methyl ethanoate 3-Thiapentane

___________

___________

___________

[79-20-9] [352-93-2]

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 323.16 0.500 154 ± 10 90-mce/gel 348.15 0.500 115 ± 10 90-mce/gel ________________________________________

B12 ± δB12 cm3· mol-1 -1610 ± 20 -1200 ± 20

x1

T K 373.15

Ref. 80-pas/han 80-pas/han

BE ± δBE cm3· mol-1 108 ± 20 173 ± 6

Ref.

________________________________________

0.500 0.500

80-pas/han 80-pas/han

MW = 74.08 MW = 74.12

B12 ± δB12 cm3· mol-1 -817.5 ± 4.0 -824.3 ± 4.0 -715.0 ± 1.5

696

Ref.

______________________________________________

90-mce/rob 90-mce/rob 90-mce/rob

BE ± δBE cm3· mol-1 0.500 75.5 ± 1.5 0.500 68.7 ± 1.5 0.500 55.5 ± 1.5 x1

Ref.

________________________________________

C3H6O2 C4H10S

___________

695

______________________________________________

C3H6O2 C4H10O

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 302.79 -1196.0 ± 5.0 90-mce/rob 302.93 -1201.0 ± 5.0 90-mce/rob 322.74 -994.0 ± 3.0 90-mce/rob 322.75 -994.0 ± 3.0 90-mce/rob

MW = 58.08 MW = 370.06

x1

90-mce/rob 90-mce/rob 90-mce/rob

MW = 74.08 MW = 90.19 BE ± δBE cm3· mol-1 107 ± 9

697

Ref.

________________________________________

0.500

90-mce/gel

Landolt-Börnstein New Series IV/21B

333

3 Mixtures of Two Organic Compounds

Methyl ethanoate Diethylamine

[79-20-9] [109-89-7]

C3H6O2 C4H11N

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 393.45 -714.8 ± 50.0 89-olf/sch 393.70 -686.8 ± 50.0 89-olf/sch 413.20 -561.8 ± 50.0 89-olf/sch

T K 413.20 433.15 433.20

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 393.45 0.470 -695.6 ± 50 89-olf/sch 393.70 0.470 -681.0 ± 50 89-olf/sch 413.20 0.490 -567.1 ± 50 89-olf/sch

T K 413.20 433.15 433.20

Table 5. Experimental Cm values with uncertainty. T x2 Cm ± δCm Ref. K 103· cm6· mol-2 393.45 0.470 301.4 ± 60 89-olf/sch 393.70 0.470 251.0 ± 60 89-olf/sch 413.20 0.490 105.1 ± 40 89-olf/sch

T K 413.20 433.15 433.20

___________

___________

___________

______________________________________________

__________________________________________

___________________________________________________________

Propane Octafluorocyclobutane

Landolt-Börnstein New Series IV/21B

__________________________________________

___________

B12 ± δB12 cm3· mol-1 -547.2 ± 50.0 -535.4 ± 50.0 -511.5 ± 50.0

T K 348.57 348.57 348.57 348.57 348.57 348.57 358.97 358.97 358.97 358.97 358.97 358.97 358.97 358.97 368.19 368.19 368.19 368.19 368.19 ___________

698

Ref.

______________________________________________

x2

89-olf/sch 89-olf/sch 89-olf/sch

Bm ± δBm cm3· mol-1 -574.4 ± 50 -523.4 ± 50 -511.5 ± 50

Ref.

__________________________________________

0.490 0.484 0.484

x2

___________

[74-98-6] [115-25-3]

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 329.41 0.000 -310 ± 5.0 82-bar/kay 329.41 0.207 -333 ± 1.2 82-bar/kay 329.41 0.254 -348 ± 1.5 82-bar/kay 329.41 0.364 -370 ± 2.2 82-bar/kay 329.41 0.519 -406 ± 3.1 82-bar/kay 329.41 0.752 -483 ± 4.5 82-bar/kay 329.41 1.000 -595 ± 5.0 82-bar/kay 338.42 0.000 -292 ± 5.0 82-bar/kay 338.42 0.075 -308 ± 4.5 82-bar/kay 338.42 0.141 -310 ± 0.9 82-bar/kay 338.42 0.207 -313 ± 1.2 82-bar/kay 338.42 0.254 -322 ± 1.5 82-bar/kay 338.42 0.364 -348 ± 2.2 82-bar/kay 338.42 0.519 -382 ± 3.0 82-bar/kay 338.42 0.752 -453 ± 4.5 82-bar/kay 338.42 1.000 -553 ± 5.0 82-bar/kay 348.57 0.000 -274 ± 5.0 82-bar/kay 348.57 0.075 -279 ± 4.5 82-bar/kay 348.57 0.141 -290 ± 0.8 82-bar/kay ___________

___________

MW = 74.08 MW = 73.14

Cm ± δCm 103· cm6· mol-2 55.6 ± 20 169.6 ± 20 117.7 ± 20

89-olf/sch 89-olf/sch 89-olf/sch

Ref.

___________________________________________________________

0.490 0.484 0.484

C3H8 C4F8 x2

89-olf/sch 89-olf/sch 89-olf/sch

MW = 44.10 MW = 200.03 Bm ± δBm cm3· mol-1 -299 ± 1.2 -304 ± 1.5 -321 ± 2.2 -354 ± 3.1 -426 ± 4.5 -517 ± 5.0 -256 ± 5.0 -262 ± 4.5 -263 ± 0.8 -273 ± 1.2 -283 ± 1.5 -299 ± 2.2 -328 ± 3.1 -392 ± 4.5 -244 ± 5.0 -246 ± 4.5 -263 ± 1.5 -310 ± 3.2 -371 ± 4.5

699

Ref.

__________________________________________

0.207 0.254 0.364 0.519 0.752 1.000 0.000 0.075 0.141 0.207 0.254 0.364 0.519 0.752 0.000 0.075 0.254 0.514 0.752

82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay cont.

334

3 Mixtures of Two Organic Compounds

Propane + Octafluorocyclobutane (cont.) Table 3. (cont.) T x2 K 368.19 1.000 377.99 0.000 377.99 0.254 377.99 0.514 377.99 0.752 377.99 1.000 387.74 0.000 387.74 0.254 ___________

Bm ± δBm cm3· mol-1 -450 ± 5.0 -231 ± 5.0 -246 ± 1.5 -288 ± 3.1 -340 ± 4.5 -424 ± 5.0 -219 ± 5.0 -232 ± 1.5

Ref. 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay

Propane 1,4-Dioxane

[74-98-6] [123-91-1]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 373.20 -364 ± 30 99-wor/joh 383.20 -345 ± 30 99-wor/joh 393.20 -326 ± 30 99-wor/joh 403.20 -301 ± 30 99-wor/joh ___________

T K 387.74 387.74 387.74 397.72 397.73 397.73 397.73 397.73 ___________

__________________________________________

______________________________________________

Propane Butane

x2

Bm ± δBm cm3· mol-1 -269 ± 3.1 -323 ± 4.5 -389 ± 5.0 -222 ± 1.5 -204 ± 5.0 -251 ± 3.1 -296 ± 4.5 -363 ± 5.0

0.514 0.752 1.000 0.254 0.000 0.514 0.752 1.000

C3H8 C4H8O2

T K 413.20 423.20 433.20 ___________

[74-98-6] [106-97-8]

Ref.

__________________________________________

82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay 82-bar/kay

MW = 44.10 MW = 88.11

B12 ± δB12 cm3· mol-1 -286 ± 30 -271 ± 30 -258 ± 30

700

Ref.

______________________________________________

C3H8 C4H10

99-wor/joh 99-wor/joh 99-wor/joh

MW = 44.10 MW = 58.12

701

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.6045 ⋅ 102 − 5.6412 ⋅ 104/(T/K) − 4.5336 ⋅ 107/(T/K)2 T/K 275 300

(B12 ± 2σest)/cm3· mol-1 -644.2 ± 15 -531.3 ± 10

T/K 325 350

(B12 ± 2σest)/cm3· mol-1 -442.3 ± 10 -370.8 ± 10

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 273.15 -659 ± 44 -5.6 88-jae/aud(▲) 288.70 -577 ± 5 1.8 61-mas/eak(‹) 293.15 -557 ± 35 2.2 88-jae/aud(▲) 298.15 -540 ± 10 -1.2 68-dan/kno-1(„) 313.15 -478 ± 28 3.6 88-jae/aud(▲) _________

______________________________________

_____________________________________

T K 323.15 333.15 348.15 373.15 _________

T/K 375

(B12 ± 2σest)/cm3· mol-1 -312.4 ± 10

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -447 ± 9 1.3 -422 ± 25 -5.0 -373 ± 8 2.6 -316 ± 7 0.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 68-dan/kno-1(„) 88-jae/aud(▲) 68-dan/kno-1(„) 68-dan/kno-1(„)

cont. Landolt-Börnstein New Series IV/21B

335

3 Mixtures of Two Organic Compounds

Propane + Butane (cont.) 50

(B 12 - B 12calc)/cm3·mol-1

40 30 20 10 0 -10 -20 -30 -40 -50 270

290

310

330

350

370

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE K cm3· mol-1 298.15 0.500 26 ± 1 68-dan/kno-1 323.15 0.500 18 ± 1 68-dan/kno-1 ___________

________________________________________

Propane Pentane

T K 348.15 373.15

x1

___________

[74-98-6] [109-66-0]

BE ± δBE cm3· mol-1 15 ± 1 12 ± 1

0.500 0.500

C3H8 C5H12

T K 348.15 373.15

B12 ± δB12 cm3· mol-1 -466 ± 11 -399 ± 10

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 298.15 0.500 126 ± 3 68-dan/kno-1 323.15 0.500 97 ± 2 68-dan/kno-1

T K 348.15 373.15

x1

___________

Landolt-Börnstein New Series IV/21B

______________________________________________

________________________________________

___________

___________

68-dan/kno-1 68-dan/kno-1

MW = 44.10 MW = 72.15

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -671 ± 14 68-dan/kno-1 323.15 -558 ± 12 68-dan/kno-1 ___________

Ref.

________________________________________

702

Ref.

______________________________________________

68-dan/kno-1 68-dan/kno-1

BE ± δBE cm3· mol-1 76 ± 2 60 ± 2

Ref.

________________________________________

0.500 0.500

68-dan/kno-1 68-dan/kno-1

336

3 Mixtures of Two Organic Compounds

Propane Hexane

[74-98-6] [110-54-3]

C3H8 C6H14

MW = 44.10 MW = 86.18

703

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = − 4.1284 ⋅ 102 + 3.6086 ⋅ 105/(T/K) − 1.4408 ⋅ 108/(T/K)2 (B12 ± 2σest)/cm3· mol-1 -810.9 ± 30 -692.2 ± 25

T/K 300 320

(B12 ± 2σest)/cm3· mol-1 -597.9 ± 20 -522.2 ± 20

T/K 340 360

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 298.15 -822 ± 30 1.3 68-dan/kno-1(„) 323.15 -682 ± 25 -6.1 68-dan/kno-1(„) 344.20 -574 ± 19 6.6 79-wor/lew(▲) 348.15 -562 ± 20 3.0 68-dan/kno-1(„) _________

______________________________________

_____________________________________

T K 363.20 373.15 396.90 _________

(B12 ± 2σest)/cm3· mol-1 -461.0 ± 15 -411.2 ± 15

T/K 380 400

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -519 ± 16 -7.5 -478 ± 15 2.5 -418 ± 14 0.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 79-wor/lew(▲) 68-dan/kno-1(„) 79-wor/lew(▲)

40

(B 12 - B 12calc)/cm3·mol-1

30 20 10 0 -10 -20 -30 -40 290

310

330

350

370

390

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm K cm3· mol-1 373.15 0.000 -1100 ± 65 81-chu/kay 373.15 0.144 -904 ± 85 81-chu/kay 373.15 0.444 -653 ± 65 81-chu/kay 373.15 0.700 -391 ± 44 81-chu/kay 373.15 0.820 -321 ± 39 81-chu/kay 373.15 0.922 -276 ± 35 81-chu/kay 387.55 0.922 -254 ± 33 81-chu/kay ___________

__________________________________________

T K 393.15 393.15 393.15 393.15 393.15 393.15 409.50 ___________

x1

Bm ± δBm cm3· mol-1 -862 ± 53 -806 ± 78 -577 ± 59 -336 ± 40 -283 ± 36 -242 ± 32 -258 ± 34

Ref.

__________________________________________

0.000 0.144 0.444 0.700 0.820 0.922 0.820

81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay cont. Landolt-Börnstein New Series IV/21B

337

3 Mixtures of Two Organic Compounds

Propane + Hexane (cont.) Table 3. (cont.) T x1 K 413.15 0.144 413.15 0.444 413.15 0.700 413.15 0.820 413.15 0.922 426.15 0.000 426.15 0.144 426.15 0.444 426.15 0.700 426.15 0.820 426.15 0.922 431.26 0.700 453.15 0.000 453.15 0.144 ___________

Bm ± δBm cm3· mol-1 -686 ± 68 -505 ± 53 -300 ± 37 -236 ± 32 -217 ± 30 -720 ± 46 -675 ± 67 -461 ± 50 -281 ± 36 -224 ± 31 -200 ± 29 -271 ± 35 -658 ± 43 -576 ± 59

Ref. 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 298.15 0.500 330 ± 35 68-dan/kno-1 323.15 0.500 248 ± 5 68-dan/kno-1 ___________

________________________________________

Propane 2-Methylpentane

Landolt-Börnstein New Series IV/21B

T K 348.15 373.15 ___________

[74-98-6] [107-83-5]

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 383.15 0.000 -895 ± 54.8 81-chu/kay 383.15 0.150 -754 ± 62.8 81-chu/kay 383.15 0.445 -533 ± 47.3 81-chu/kay 383.15 0.649 -400 ± 38.0 81-chu/kay 383.15 0.919 -266 ± 28.6 81-chu/kay 386.58 0.919 -265 ± 28.5 81-chu/kay 403.15 0.000 -779 ± 49.0 81-chu/kay 403.15 0.150 -677 ± 57.4 81-chu/kay 403.15 0.445 -473 ± 43.0 81-chu/kay 403.15 0.649 -357 ± 35.0 81-chu/kay 403.15 0.820 -274 ± 29.2 81-chu/kay 403.15 0.919 -236 ± 24.7 81-chu/kay 405.45 0.820 -253 ± 27.7 81-chu/kay 426.15 0.000 -679 ± 44.0 81-chu/kay 426.15 0.150 -588 ± 51.2 81-chu/kay 426.15 0.445 -403 ± 38.2 81-chu/kay 426.15 0.649 -304 ± 31.3 81-chu/kay 426.15 0.820 -230 ± 26.1 81-chu/kay 426.15 0.919 -210 ± 22.2 81-chu/kay ___________

T K 453.15 453.15 453.15 453.15 473.15 473.15 473.15 493.15 493.15 493.15 493.15 496.30 507.95 ___________

__________________________________________

__________________________________________

x1

T K 431.97 453.15 453.15 453.15 453.15 458.19 473.15 473.15 473.15 473.15 473.15 486.49 493.15 493.15 493.15 493.15 493.15 497.85

Ref.

__________________________________________

0.444 0.700 0.820 0.922 0.000 0.144 0.700 0.000 0.444 0.700 0.922 0.144 0.000

x1

BE ± δBE cm3· mol-1 196 ± 2 154 ± 2

81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay

Ref.

________________________________________

0.500 0.500

C3H8 C6H14

___________

Bm ± δBm cm3· mol-1 -383 ± 44 -235 ± 32 -194 ± 29 -162 ± 26 -555 ± 38 -502 ± 53 -210 ± 30 -524 ± 36 -309 ± 38 -190 ± 28 -134 ± 24 -432 ± 48 -469 ± 34

x1

68-dan/kno-1 68-dan/kno-1

MW = 44.10 MW = 86.18 Bm ± δBm cm3· mol-1 -300 ± 31.0 -574 ± 38.7 -499 ± 44.9 -347 ± 34.3 -257 ± 28.0 -328 ± 33.0 -520 ± 36.0 -445 ± 41.1 -316 ± 32.1 -228 ± 26.0 -161 ± 21.3 -426 ± 39.8 -474 ± 33.7 -411 ± 38.8 -280 ± 29.6 -214 ± 25.0 -148 ± 20.4 -459 ± 33.0

704

Ref.

__________________________________________

0.645 0.000 0.150 0.445 0.649 0.445 0.000 0.150 0.445 0.649 0.919 0.150 0.000 0.150 0.445 0.649 0.919 0.000

81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay

338

3 Mixtures of Two Organic Compounds

Propane 3-Methylpentane

[74-98-6] [96-14-0]

Table 3. Experimental Bm values with uncertainty. T x1 Ref. Bm ± δBm K cm3· mol-1 383.15 0.000 -926 ± 56.3 81-chu/kay 383.15 0.152 -792 ± 57.5 81-chu/kay 383.15 0.445 -532 ± 41.9 81-chu/kay 383.15 0.834 -311 ± 28.7 81-chu/kay 383.15 0.885 -282 ± 26.9 81-chu/kay 391.01 0.885 -268 ± 26.1 81-chu/kay 403.15 0.000 -819 ± 51.0 81-chu/kay 403.15 0.152 -665 ± 49.9 81-chu/kay 403.15 0.445 -472 ± 38.3 81-chu/kay 403.15 0.834 -282 ± 26.9 81-chu/kay 403.15 0.885 -258 ± 25.5 81-chu/kay 404.92 0.834 -276 ± 26.6 81-chu/kay 426.15 0.000 -691 ± 44.6 81-chu/kay 426.15 0.152 -578 ± 44.7 81-chu/kay 426.15 0.445 -415 ± 34.9 81-chu/kay 426.15 0.834 -244 ± 24.6 81-chu/kay 426.15 0.885 -225 ± 23.5 81-chu/kay 453.15 0.000 -592 ± 39.6 81-chu/kay ___________

__________________________________________

Propane 2,2-Dimethylbutane

T K 453.15 453.15 453.15 453.15 462.68 473.15 473.15 473.15 473.15 473.15 492.65 493.15 493.15 493.15 493.15 493.15 504.62

__________________________________________

x1

___________

[74-98-6] [75-83-2]

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 383.15 0.000 -753 ± 47.7 81-chu/kay 383.15 0.153 -674 ± 50.4 81-chu/kay 383.15 0.449 -496 ± 39.8 81-chu/kay 383.15 0.659 -392 ± 33.5 81-chu/kay 383.15 0.821 -281 ± 26.9 81-chu/kay 383.15 0.919 -245 ± 24.7 81-chu/kay 385.15 0.919 -241 ± 24.5 81-chu/kay 401.93 0.821 -254 ± 25.2 81-chu/kay 403.15 0.000 -698 ± 44.9 81-chu/kay 403.15 0.153 -594 ± 45.6 81-chu/kay 403.15 0.449 -431 ± 35.9 81-chu/kay 403.15 0.659 -348 ± 30.9 81-chu/kay 403.15 0.821 -256 ± 25.4 81-chu/kay 403.15 0.919 -219 ± 23.1 81-chu/kay 425.36 0.659 -310 ± 28.6 81-chu/kay 426.15 0.000 -612 ± 40.6 81-chu/kay 426.15 0.153 -508 ± 41.1 81-chu/kay 426.15 0.449 -378 ± 32.7 81-chu/kay 426.15 0.659 -310 ± 28.6 81-chu/kay ___________

C3H8 C6H14

T K 426.15 426.15 447.73 453.15 453.15 453.15 453.15 473.15 473.15 473.15 473.15 473.15 477.91 489.01 493.15 493.15 493.15 493.15

Bm ± δBm cm3· mol-1 -499 ± 39.9 -350 ± 31.0 -211 ± 22.7 -188 ± 21.3 -331 ± 29.9 -543 ± 37.2 -443 ± 36.6 -313 ± 28.8 -196 ± 21.8 -172 ± 20.3 -403 ± 34.2 -487 ± 34.4 -409 ± 34.5 -284 ± 27.0 -181 ± 20.9 -161 ± 19.7 -450 ± 32.5

705

Ref.

__________________________________________

0.145 0.445 0.834 0.885 0.445 0.000 0.152 0.445 0.834 0.885 0.145 0.000 0.145 0.445 0.834 0.885 0.000

C3H8 C6H14

___________

MW = 44.10 MW = 86.18

x1

81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay

MW = 44.10 MW = 86.18 Bm ± δBm cm3· mol-1 -214 ± 22.8 -188 ± 21.3 -336 ± 30.2 -522 ± 36.1 -464 ± 37.8 -324 ± 29.4 -259 ± 25.5 -479 ± 34.0 -417 ± 35.0 -296 ± 27.8 -229 ± 23.7 -170 ± 20.2 -416 ± 35.0 -440 ± 32.0 -424 ± 31.2 -359 ± 31.5 -272 ± 26.3 -213 ± 22.8

706

Ref.

__________________________________________

0.821 0.919 0.449 0.000 0.153 0.449 0.659 0.000 0.153 0.449 0.659 0.821 0.153 0.000 0.000 0.153 0.449 0.659

81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay

Landolt-Börnstein New Series IV/21B

339

3 Mixtures of Two Organic Compounds

Propane 2,3-Dimethylbutane

[74-98-6] [79-29-8]

Table 3. Experimental Bm values with uncertainty. T x1 Ref. Bm ± δBm K cm3· mol-1 383.15 0.152 -763 ± 55.8 81-chu/kay 383.15 0.452 -527 ± 41.6 81-chu/kay 383.15 0.651 -404 ± 34.2 81-chu/kay 383.15 0.915 -281 ± 26.9 81-chu/kay 387.50 0.915 -274 ± 28.4 81-chu/kay 403.15 0.000 -827 ± 51.4 81-chu/kay 403.15 0.152 -674 ± 50.4 81-chu/kay 403.15 0.452 -470 ± 38.2 81-chu/kay 403.15 0.651 -360 ± 31.6 81-chu/kay 403.15 0.915 -258 ± 25.5 81-chu/kay 426.15 0.000 -725 ± 46.3 81-chu/kay 426.15 0.152 -583 ± 45.0 81-chu/kay 426.15 0.452 -404 ± 34.2 81-chu/kay 426.15 0.651 -318 ± 29.1 81-chu/kay 426.15 0.915 -222 ± 23.3 81-chu/kay 432.05 0.651 -307 ± 28.4 81-chu/kay 453.15 0.000 -617 ± 40.9 81-chu/kay ___________

__________________________________________

Propane Heptane

______________________________________________

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 338.60 0.500 -893 ± 30 62-mcg/pot 348.50 0.500 -830 ± 30 62-mcg/pot 354.90 0.500 -793 ± 30 62-mcg/pot 363.50 0.500 -750 ± 30 62-mcg/pot 365.50 0.500 -732 ± 30 62-mcg/pot ___________

Landolt-Börnstein New Series IV/21B

T K 453.15 453.15 453.15 453.15 459.36 473.15 473.15 473.15 473.15 473.15 488.41 493.15 493.15 493.15 493.15 493.15 500.23

__________________________________________

x1

___________

[74-98-6] [142-82-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 383.20 -537 ± 21 79-wor/lew 403.20 -490 ± 20 79-wor/lew ___________

C3H8 C6H14

T K 413.20

T K 373.20 383.50 393.40 403.30 414.20 ___________

Bm ± δBm cm3· mol-1 -500 ± 40.0 -353 ± 31.2 -271 ± 26.3 -189 ± 21.3 -345 ± 30.7 -558 ± 37.9 -467 ± 38.0 -323 ± 29.4 -253 ± 25.2 -170 ± 20.2 -435 ± 36.1 -518 ± 35.9 -429 ± 35.7 -297 ± 27.8 -225 ± 23.5 -157 ± 19.4 -505 ± 35.3

707

Ref.

__________________________________________

0.152 0.452 0.651 0.915 0.452 0.000 0.152 0.452 0.651 0.915 0.152 0.000 0.152 0.452 0.651 0.915 0.000

C3H8 C7H16

___________

MW = 44.10 MW = 86.18

81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay 81-chu/kay

MW = 44.10 MW = 100.20

B12 ± δB12 cm3· mol-1 -448 ± 21

708

Ref.

______________________________________________

x1

79-wor/lew

Bm ± δBm cm3· mol-1 -697 ± 25 -653 ± 25 -607 ± 25 -577 ± 20 -533 ± 20

Ref.

__________________________________________

0.500 0.500 0.500 0.500 0.500

62-mcg/pot 62-mcg/pot 62-mcg/pot 62-mcg/pot 62-mcg/pot

340

3 Mixtures of Two Organic Compounds

Propane Octane

[74-98-6] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 403.20 -541 ± 28 79-wor/lew 410.20 -512 ± 27 79-wor/lew ___________

______________________________________________

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 353.20 0.500 -1007 ± 30 62-mcg/pot 362.60 0.500 -937 ± 30 62-mcg/pot 363.00 0.500 -913 ± 30 62-mcg/pot 367.60 0.500 -922 ± 30 62-mcg/pot 373.00 0.500 -894 ± 30 62-mcg/pot ___________

__________________________________________

1-Propanol Heptane

______________________________________________

Table 3. Experimental Bm values with uncertainty. x2 T Bm ± δBm Ref. K cm3· mol-1 423.15 0.000 -587 ± 11 82-zaw/vej 423.15 0.308 -581 ± 6 82-zaw/vej 423.15 0.466 -595 ± 3 82-zaw/vej 423.15 0.670 -664 ± 23 82-zaw/vej 423.15 1.000 -1047 ± 39 82-zaw/vej 448.15 0.000 -488 ± 13 82-zaw/vej 448.15 0.308 -492 ± 16 82-zaw/vej 448.15 0.466 -517 ± 4 82-zaw/vej 448.15 0.670 -575 ± 4 82-zaw/vej 448.15 1.000 -900 ± 22 82-zaw/vej 473.15 0.000 -407 ± 27 82-zaw/vej 473.15 0.308 -425 ± 14 82-zaw/vej 473.15 0.466 -455 ± 34 82-zaw/vej 473.15 0.670 -517 ± 3 82-zaw/vej 473.15 1.000 -762 ± 51 82-zaw/vej 498.15 0.000 -339 ± 21 82-zaw/vej 498.15 0.308 -373 ± 24 82-zaw/vej 498.15 0.466 -404 ± 5 82-zaw/vej ___________

T K 413.20 ___________

T K 377.40 382.90 393.60 404.00 413.80 ___________

[71-23-8] [142-82-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 423.15 -390 ± 54 82-zaw/vej 448.15 -349 ± 54 82-zaw/vej 473.15 -330 ± 53 82-zaw/vej 498.15 -313 ± 53 82-zaw/vej ___________

C3H8 C8H18

__________________________________________

MW = 44.10 MW = 114.23

B12 ± δB12 cm3· mol-1 -508 ± 27

T K 523.15 548.15 573.15

T K 498.15 498.15 523.15 523.15 523.15 523.15 523.15 548.15 548.15 548.15 548.15 548.15 573.15 573.15 573.15 573.15 573.15 ___________

Ref.

______________________________________________

x1

Bm ± δBm cm3· mol-1 -849 ± 25 -820 ± 25 -749 ± 25 -690 ± 20 -654 ± 20

79-wor/lew

Ref.

__________________________________________

0.500 0.500 0.500 0.500 0.500

C3H8O C7H16

___________

709

62-mcg/pot 62-mcg/pot 62-mcg/pot 62-mcg/pot 62-mcg/pot

MW = 60.09 MW = 100.20

B12 ± δB12 cm3· mol-1 -300 ± 53 -251 ± 53 -220 ± 52

710

Ref.

______________________________________________

x2

Bm ± δBm cm3· mol-1 -460 ± 5 -691 ± 16 -288 ± 7 -330 ± 3 -365 ± 5 -419 ± 7 -602 ± 15 -260 ± 6 -291 ± 8 -313 ± 7 -371 ± 52 -525 ± 12 -229 ± 6 -252 ± 12 -270 ± 6 -334 ± 16 -468 ± 72

82-zaw/vej 82-zaw/vej 82-zaw/vej

Ref.

__________________________________________

0.670 1.000 0.000 0.308 0.466 0.670 1.000 0.000 0.308 0.466 0.670 1.000 0.000 0.308 0.466 0.670 1.000

82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej 82-zaw/vej

Landolt-Börnstein New Series IV/21B

341

3 Mixtures of Two Organic Compounds

Decafluorobutane Butane

[355-25-9] [106-97-8]

C4F10 C4H10

MW = 238.03 MW = 58.12

711

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 9.3979 ⋅ 102 − 4.8933 ⋅ 105/(T/K) T/K 300 325

(B12 ± 2σest)/cm3· mol-1 -691.3 ± 50 -565.8 ± 50

T/K 350 375

(B12 ± 2σest)/cm3· mol-1 -458.3 ± 50 -365.1 ± 40

Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 283.15 -766 ± 50 22.4 62-tri/dun(‹) 283.15 -792 ± 50 -3.6 62-tri/dun(‹) 298.15 -643 ± 16 58.4 71-dan/kno(„) 303.03 -666 ± 50 9.0 62-tri/dun(‹) 303.03 -678 ± 50 -3.0 62-tri/dun(‹) 303.03 -686 ± 50 -11.0 62-tri/dun(‹) _________

______________________________________

_____________________________________

T K 323.15 323.20 323.20 323.20 373.15 _________

T/K

(B12 ± 2σest)/cm3· mol-1

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -538 ± 12 36.5 -604 ± 50 -29.8 -593 ± 50 -18.8 -636 ± 50 -61.8 -370 ± 10 1.6 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 71-dan/kno(„) 62-tri/dun(‹) 62-tri/dun(‹) 62-tri/dun(‹) 71-dan/kno(„)

(B 12 - B 12calc)/cm3·mol-1

100

50

0

-50

-100

-150 280

300

320

340

360

380

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 298.15 0.500 158 ± 2 71-dan/kno 323.15 0.500 130 ± 2 71-dan/kno ___________

Landolt-Börnstein New Series IV/21B

________________________________________

T K 373.15 ___________

x1

BE ± δBE cm3· mol-1 90 ± 1

Ref.

_______________________________________

0.500

71-dan/kno

342

3 Mixtures of Two Organic Compounds

Decafluorobutane Dodecafluoropentane

[355-25-9] [678-26-2]

C4F10 C5F12

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -939 ± 50 69-dan/kno

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 323.15 0.500 27 ± 2 69-dan/kno

___________

___________

______________________________________________

___________

________________________________________

Decafluorobutane Tetradecafluorohexane

T K

T K

[355-25-9] [355-42-0]

___________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 373.15 0.500 77 ± 4 69-dan/kno

___________

___________

______________________________________________

___________

________________________________________

Decafluorobutane Hexane

T K

T K

[355-25-9] [110-54-3]

___________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 323.15 0.500 298 ± 6 71-dan/kno

___________

___________

______________________________________________

________________________________________

Butanone Benzene

___________

T K

T K

[78-93-3] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 353.15 -762 ± 20 65-cha/wan ______________________________________________

x1

T K

BE ± δBE cm3· mol-1

Ref.

MW = 238.03 MW = 338.04

B12 ± δB12 cm3· mol-1

713

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1

Ref.

________________________________________

MW = 238.03 MW = 86.18

B12 ± δB12 cm3· mol-1

714

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1

Ref.

________________________________________

C4H8O C6H6

___________

Ref.

________________________________________

C4F10 C6H14

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -830 ± 40 71-dan/kno ___________

B12 ± δB12 cm3· mol-1

712

______________________________________________

C4F10 C6F14

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 373.15 -733 ± 6 69-dan/kno

MW = 238.03 MW = 288.04

MW = 72.11 MW = 78.11

B12 ± δB12 cm3· mol-1

715

Ref.

______________________________________________

Landolt-Börnstein New Series IV/21B

343

3 Mixtures of Two Organic Compounds

1,4-Dioxane Benzene

[123-91-1] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 373.20 -846 ± 50 98-wor/par 378.20 -821 ± 50 98-wor/par 383.20 -796 ± 50 98-wor/par 388.20 -773 ± 50 98-wor/par ___________

______________________________________________

1,4-Dioxane Cyclohexane

______________________________________________

Butane 2-Methylpropane

______________________________________________

Butane Pentane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 298.20 0.500 35 ± 3 68-dan/kno-1 323.20 0.500 26 ± 2 68-dan/kno-1 ___________

Landolt-Börnstein New Series IV/21B

________________________________________

B12 ± δB12 cm3· mol-1 -750 ± 50 -709 ± 50 -761 ± 50 -636 ± 50

T K 406.87 410.93 444.26 ___________

T K 348.20 373.20

T K 348.20 373.20 ___________

Ref. 98-wor/par 98-wor/par 98-wor/par 98-wor/par

MW = 88.11 MW = 84.16

B12 ± δB12 cm3· mol-1 -618 ± 50 -582 ± 50 -547 ± 50 -528 ± 50

717

Ref. 98-wor/par 98-wor/par 98-wor/par 98-wor/par

MW = 58.12 MW = 58.12

B12 ± δB12 cm3· mol-1 -338.1 ± 3.0 -329.5 ± 3.0 -273.1 ± 3.0

718

Ref.

______________________________________________

C4H10 C5H12

___________

716

______________________________________________

C4H10 C4H10

[106-97-8] [109-66-0]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 298.20 -928 ± 12 68-dan/kno-1 323.20 -764 ± 10 68-dan/kno-1 ___________

T K 393.20 403.20 413.20 423.20 ___________

MW = 88.11 MW = 78.11

______________________________________________

C4H8O2 C6H12

[106-97-8] [75-28-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 344.26 -483.7 ± 3.0 62-con 360.93 -437.9 ± 3.0 62-con 377.59 -396.9 ± 3.0 62-con 394.26 -361.7 ± 3.0 62-con ___________

T K 393.20 403.20 413.20 423.20 ___________

[123-91-1] [110-82-7]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 373.20 -688 ± 50 98-wor/par 378.20 -671 ± 50 98-wor/par 383.20 -655 ± 50 98-wor/par 388.20 -636 ± 50 98-wor/par ___________

C4H8O2 C6H6

62-con 62-con 62-con

MW = 58.12 MW = 72.15

B12 ± δB12 cm3· mol-1 -635 ± 10 -540 ± 8

719

Ref.

______________________________________________

x1

BE ± δBE cm3· mol-1 20 ± 2 14 ± 2

68-dan/kno-1 68-dan/kno-1

Ref.

________________________________________

0.500 0.500

68-dan/kno-1 68-dan/kno-1

344

3 Mixtures of Two Organic Compounds

Butane Hexane

[106-97-8] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -1111 ± 65 68-dan/kno-1 323.15 -943 ± 30 68-dan/kno-1 348.15 -775 ± 25 68-dan/kno-1 363.20 -694 ± 17 79-wor/lew ___________

______________________________________________

Table 4. Experimental BE values with uncertainty. T x1 Ref. BE ± δBE 3 -1 K cm · mol 298.15 0.500 210 ± 35 68-dan/kno-1 323.15 0.500 122 ± 5 68-dan/kno-1 ___________

________________________________________

Butane Octane

______________________________________________

Diethyl ether Benzene

T K 348.15 373.15

______________________________________________

B12 ± δB12 cm3· mol-1 -650 ± 20 -651 ± 17 -610 ± 17 -579 ± 17

BE ± δBE cm3· mol-1 95 ± 2 76 ± 2

x1

T K 413.20

0.500 0.500

T K 373.20 383.20 393.20 403.20 413.20 423.20

Ref. 68-dan/kno-1 79-wor/lew 79-wor/lew 79-wor/lew

Ref. 68-dan/kno-1 68-dan/kno-1

MW = 58.12 MW = 114.23

B12 ± δB12 cm3· mol-1 -700 ± 24

721

Ref.

______________________________________________

C4H10O C6H6

___________

720

________________________________________

C4H10 C8H18

___________

MW = 58.12 MW = 86.18

______________________________________________

___________

[60-29-7] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 333.15 -785 ± 52 68-kno/edm 353.15 -769 ± 52 68-kno/edm 353.20 -872 ± 60 98-bow/lac 358.20 -844 ± 60 98-bow/lac 363.20 -819 ± 60 98-bow/lac 368.20 -793 ± 60 98-bow/lac 373.15 -620 ± 52 68-kno/edm ___________

T K 373.15 373.20 383.60 393.20 ___________

[106-97-8] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 403.20 -735 ± 26 79-wor/lew 410.50 -714 ± 25 79-wor/lew ___________

C4H10 C6H14

79-wor/lew

MW = 74.12 MW = 78.11

B12 ± δB12 cm3· mol-1 -769 ± 60 -725 ± 60 -685 ± 60 -649 ± 60 -616 ± 60 -568 ± 60

722

Ref.

______________________________________________

98-bow/lac 98-bow/lac 98-bow/lac 98-bow/lac 98-bow/lac 98-bow/lac

Landolt-Börnstein New Series IV/21B

345

3 Mixtures of Two Organic Compounds

Diethyl ether Cyclohexane

[60-29-7] [110-82-7]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 353.20 -822 ± 60 98-bow/lac 358.20 -804 ± 60 98-bow/lac 363.20 -786 ± 60 98-bow/lac 368.20 -750 ± 60 98-bow/lac 373.20 -735 ± 60 98-bow/lac ___________

______________________________________________

Diethyl ether Hexane

T K 383.20 393.20 403.20 413.20 423.20 ___________

[60-29-7] [110-54-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 311.71 -1259 ± 38 71-rae/fre 326.20 -1130 ± 50 52-fox/lam ___________

______________________________________________

Diethylamine Cyclohexane

T K 332.66 352.00

[109-89-7] [110-82-7]

Tetramethylsilane 2,2-Dimethylpropane

___________

Landolt-Börnstein New Series IV/21B

T K

[75-76-3] [463-82-1]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 300.00 -1155 ± 30 74-bel/rei 320.00 -1020 ± 30 74-bel/rei 340.00 -920 ± 30 74-bel/rei 370.00 -793 ± 30 74-bel/rei 400.00 -700 ± 30 74-bel/rei ______________________________________________

B12 ± δB12 cm3· mol-1 -690 ± 60 -622 ± 60 -589 ± 60 -589 ± 60 -557 ± 60

T K 430.00 460.00 490.00 520.00 550.00

Ref. 98-bow/lac 98-bow/lac 98-bow/lac 98-bow/lac 98-bow/lac

MW = 74.12 MW = 86.18

B12 ± δB12 cm3· mol-1 -1064 ± 32 -940 ± 50

724

Ref. 71-rae/fre 52-fox/lam

MW = 73.14 MW = 84.16

B12 ± δB12 cm3· mol-1

725

Ref.

______________________________________________

C4H12Si C5H12

___________

723

______________________________________________

C4H11N C6H12

___________

______________________________________________

MW = 74.12 MW = 84.16

______________________________________________

C4H10O C6H14

___________

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 3 -1 K cm · mol 349.00 -990 ± 50 54-lam/mur ___________

C4H10O C6H12

MW = 88.22 MW = 72.15

B12 ± δB12 cm3· mol-1 -627 ± 30 -573 ± 30 -530 ± 30 -494 ± 30 -462 ± 30

Ref.

______________________________________________

74-bel/rei 74-bel/rei 74-bel/rei 74-bel/rei 74-bel/rei

726

346

3 Mixtures of Two Organic Compounds

3-Pentanone Benzene

[96-22-0] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 373.20 -1002 ± 50 98-wor/mat 378.20 -968 ± 50 98-wor/mat 383.20 -936 ± 50 98-wor/mat 388.20 -907 ± 50 98-wor/mat ___________

______________________________________________

3-Pentanone Cyclohexane

______________________________________________

Dodecafluoropentane Pentane

______________________________________________

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 323.15 0.500 228 ± 10 71-dan/kno ___________

________________________________________

Pentane Tetradecafluorohexane

______________________________________________

B12 ± δB12 cm3· mol-1 -879 ± 50 -826 ± 50 -780 ± 50 -737 ± 50

B12 ± δB12 cm3· mol-1 -881 ± 50 -831 ± 50 -791 ± 50 -754 ± 50

T K 373.15

x1

T K 384.20

728

Ref. 98-wor/mat 98-wor/mat 98-wor/mat 98-wor/mat

729

Ref.

______________________________________________

71-dan/kno 59-gar/mcc

BE ± δBE cm3· mol-1 152 ± 6

Ref.

________________________________________

0.500

C5H12 C6F14

___________

98-wor/mat 98-wor/mat 98-wor/mat 98-wor/mat

MW = 288.04 MW = 72.15

B12 ± δB12 cm3· mol-1 -588 ± 25 -625 ± 6

___________

Ref.

MW = 86.13 MW = 84.16

T K 373.15 383.30 ___________

727

______________________________________________

C5F12 C5H12

[109-66-0] [355-42-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 308.00 -1184 ± 54 59-gar/mcc 338.10 -895 ± 15 59-gar/mcc ___________

T K 393.20 403.20 413.20 423.20 ___________

MW = 86.13 MW = 78.11

______________________________________________

C5H10O C6H12

[678-26-2] [109-66-0]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 307.90 -969 ± 19 59-gar/mcc 323.15 -853 ± 30 71-dan/kno 337.90 -693 ± 16 59-gar/mcc ___________

T K 393.20 403.20 413.20 423.20 ___________

[96-22-0] [110-82-7]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 373.20 -990 ± 50 98-wor/mat 378.20 -959 ± 50 98-wor/mat 383.20 -937 ± 50 98-wor/mat 388.20 -912 ± 50 98-wor/mat ___________

C5H10O C6H6

71-dan/kno

MW = 72.15 MW = 338.04

B12 ± δB12 cm3· mol-1 -643 ± 41

730

Ref.

______________________________________________

59-gar/mcc

Landolt-Börnstein New Series IV/21B

347

3 Mixtures of Two Organic Compounds

Pentane Fluorobenzene

[109-66-0] [462-06-6]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 443.20 -525 ± 15 73-bel/sul 453.20 -480 ± 15 73-bel/sul 463.20 -461 ± 15 73-bel/sul ___________

______________________________________________

Pentane Benzene

T K 473.20 483.20 493.20 ___________

[109-66-0] [71-43-2]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 433.20 -487 ± 10 71-zaa/bel-1 443.20 -456 ± 10 71-zaa/bel-1 453.20 -434 ± 10 71-zaa/bel-1 ___________

C5H12 C6H5F

______________________________________________

Pentane Hexane

T K 463.20 473.20

[109-66-0] [110-54-3] T K 373.15 383.20 403.20

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 323.15 0.500 26 ± 6 68-dan/kno-1 348.15 0.500 28 ± 2 68-dan/kno-1

T K 373.15

___________

______________________________________________

________________________________________

Pentane Heptane

Landolt-Börnstein New Series IV/21B

___________

[109-66-0] [142-82-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 393.20 -871 ± 20 79-wor/lew 403.20 -823 ± 20 79-wor/lew ___________

___________

______________________________________________

T K 413.20

73-bel/sul 73-bel/sul 73-bel/sul

MW = 72.15 MW = 78.11

B12 ± δB12 cm3· mol-1 -404 ± 10 -380 ± 10

732

Ref. 71-zaa/bel-1 71-zaa/bel-1

MW = 72.15 MW = 86.18

B12 ± δB12 cm3· mol-1 -838 ± 20 -783 ± 18 -689 ± 15

733

Ref.

______________________________________________

x1

68-dan/kno-1 79-wor/lew 79-wor/lew

BE ± δBE cm3· mol-1 20 ± 2

Ref.

________________________________________

0.500

C5H12 C7H16

___________

Ref.

______________________________________________

C5H12 C6H14

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 323.15 -1229 ± 40 68-dan/kno-1 343.20 -1023 ± 21 79-wor/lew 348.15 -997 ± 30 68-dan/kno-1 363.20 -893 ± 19 79-wor/lew ___________

B12 ± δB12 cm3· mol-1 -436 ± 15 -416 ± 15 -361 ± 15

731

______________________________________________

C5H12 C6H6

___________

MW = 72.15 MW = 96.10

68-dan/kno-1

MW = 72.15 MW = 100.20

B12 ± δB12 cm3· mol-1 -774 ± 19

Ref.

______________________________________________

79-wor/lew

734

348

3 Mixtures of Two Organic Compounds

Pentane Octane

[109-66-0] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 403.20 -953 ± 25 79-wor/lew ___________

______________________________________________

Hexafluorobenzene Benzene

T K 413.20 ___________

[392-56-3] [71-43-2]

Table 4. Experimental BE values with uncertainty. T x1 BE ± δBE Ref. K cm3· mol___________

C5H12 C8H18

B12 ± δB12 cm3· mol-1 -895 ± 23

735

Ref.

______________________________________________

C6F6 C6H6

79-wor/lew

MW = 186.06 MW = 78.11 BE ± δBE cm3· mol-1

T K

x1

373.15 373.15

0.500 0.500

___________

________________________________________

MW = 72.15 MW = 114.23

736

Ref.

________________________________________

1

323.15 348.15

0.500 0.500

-1029 -555

± 20 ± 12

Hexafluorobenzene Cyclohexane

69-dan/kno-1 69-dan/kno-1

[392-56-3] [110-82-7]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 348.15 -1238 ± 50 69-dan/kno 364.20 -997 ± 50 69-pow ___________

______________________________________________

T K 389.69 414-86 ___________

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 348.15 0.500 98 ± 10 69-dan/kno-1 ___________

T K

___________

________________________________________

Tetradecafluorohexane Hexane

C6F6 C6H12

[355-42-0] [110-54-3]

-343 -353

± ±

B12 ± δB12 cm3· mol-1 -830 ± 40 -690 ± 35

T K 373.15

x1

___________

Ref.

MW = 338.04 MW = 86.18

Table 4. Experimental BE values with uncertainty. x1 T BE ± δBE Ref. K cm3· mol-1 323.15 0.500 315 ± 10 71-dan/kno ________________________________________

69-pow 69-pow

________________________________________

B12 ± δB12 cm3· mol-1 -871 ± 30

___________

Ref.

BE ± δBE cm3· mol-1

x1

C6F14 C6H14

___________

737

______________________________________________

T K 373.15

______________________________________________

69-dan/kno-1 69-dan/kno-1

MW = 186.06 MW = 84.16

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 323.15 -1297 ± 40 71-dan/kno ___________

15 3

738

Ref.

______________________________________________

71-dan/kno

BE ± δBE cm3· mol-1 211 ± 5

Ref.

________________________________________

0.500

71-dan/kno

Landolt-Börnstein New Series IV/21B

349

3 Mixtures of Two Organic Compounds

Bromobenzene Benzene

[108-86-1] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 303.20 -2166 ± 75 72-kho/mah ___________

[108-90-7] [71-43-2]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 303.20 -2025 ± 70 72-kho/mah ___________

Fluorobenzene Benzene

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 453.20 -598 ± 60 72-zaa/bel 463.20 -563 ± 60 72-zaa/bel 473.20 -540 ± 60 72-zaa/bel ___________

C6H5Cl C6H6

______________________________________________

T K 483.20 493.20

Table 3. Experimental Bm values with uncertainty. x2 Ref. T Bm ± δBm 3 -1 K cm · mol 498.15 0.50 -468.9 ± 30 89-abd/dzh 498.15 0.25 -477.6 ± 30 89-abd/dzh 523.15 0.50 -418.8 ± 30 89-abd/dzh 523.15 0.25 -405.2 ± 30 89-abd/dzh 533.15 0.50 -333.5 ± 25 89-abd/dzh 533.15 0.25 -339.2 ± 20 89-abd/dzh 548.15 0.50 -373.7 ± 25 89-abd/dzh

T K 548.15 598.15 598.15 623.15 623.15 648.15 648.15

Table 5. Experimental Cm values with uncertainty. x2 Ref. T Cm ± δCm K 103· cm6· mol-2 498.15 0.50 54.0 ± 6.0 89-abd/dzh 498.15 0.25 60.2 ± 6.0 89-abd/dzh 523.15 0.50 54.7 ± 6.0 89-abd/dzh 523.15 0.25 59.4 ± 5.0 89-abd/dzh 533.15 0.50 45.5 ± 6.0 89-abd/dzh 533.15 0.25 48.1 ± 4.5 89-abd/dzh 548.15 0.50 50.0 ± 6.0 89-abd/dzh

T K 548.15 598.15 598.15 623.15 623.15 648.15 648.15

___________

___________

Landolt-Börnstein New Series IV/21B

__________________________________________

___________________________________________________________

___________

___________

740

Ref.

______________________________________________

C6H5F C6H6

___________

Ref.

MW = 112.56 MW = 78.11

B12 ± δB12 cm3· mol-1

T K

[462-06-6] [71-43-2]

739

______________________________________________

___________

______________________________________________

MW = 157.01 MW = 78.11

B12 ± δB12 cm3· mol-1

T K

___________

______________________________________________

Chlorobenzene Benzene

C6H5Br C6H6

MW = 96.10 MW = 78.11

B12 ± δB12 cm3· mol-1 -507 ± 60 -471 ± 60

741

Ref.

______________________________________________

x2

72-zaa/bel 72-zaa/bel

Bm ± δBm cm3· mol-1 -378.7 ± 20 -301.3 ± 25 -304.6 ± 18 -271.4 ± 20 -272.7 ± 18 -243.2 ± 20 -246.8 ± 16

Ref.

__________________________________________

0.25 0.50 0.25 0.50 0.25 0.50 0.25

x2

Cm ± δCm 103· cm6· mol-2 53.6 ± 5.0 38.5 ± 5.0 40.6 ± 4.0 31.8 ± 5.0 32.4 ± 3.5 24.8 ± 4.0 24.5 ± 3.0

89-abd/dzh 89-abd/dzh 89-abd/dzh 89-abd/dzh 89-abd/dzh 89-abd/dzh 89-abd/dzh

Ref.

__________________________________________________________

0.25 0.50 0.25 0.50 0.25 0.50 0.25

89-abd/dzh 89-abd/dzh 89-abd/dzh 89-abd/dzh 89-abd/dzh 89-abd/dzh 89-abd/dzh

350

3 Mixtures of Two Organic Compounds

Fluorobenzene 4-Fluorotoluene

[462-06-6] [352-32-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 453.00 -666.0 ± 50.7 84-bel/sul 463.00 -647.0 ± 49.2 84-bel/sul 473.00 -620.0 ± 47.2 84-bel/sul ___________

______________________________________________

Table 3. Experimental Bm values with uncertainty. x2 Ref. T Bm ± δBm 3 -1 K cm · mol 443.00 0.25 -659.0 ± 41.1 84-bel/sul 453.00 0.25 -634.0 ± 39.4 84-bel/sul 453.00 0.50 -721.0 ± 45.5 84-bel/sul 453.00 0.75 -747.0 ± 47.3 84-bel/sul 463.00 0.25 -610.0 ± 37.7 84-bel/sul 463.00 0.50 -696.0 ± 43.7 84-bel/sul 463.00 0.75 -727.0 ± 45.9 84-bel/sul 473.00 0.25 -580.0 ± 35.6 84-bel/sul 473.00 0.50 -660.0 ± 41.2 84-bel/sul 473.00 0.75 -714.0 ± 45.0 84-bel/sul ___________

__________________________________________

Fluorobenzene 2-Fluorotoluene

______________________________________________

Table 3. Experimental Bm values with uncertainty. x1 Ref. T Bm ± δBm 3 -1 K cm · mol 433.00 0.50 -715 ± 30 81-bel/sul 433.00 0.75 -677 ± 30 81-bel/sul 443.00 0.25 -777 ± 30 81-bel/sul 443.00 0.50 -695 ± 30 81-bel/sul 443.00 0.75 -647 ± 30 81-bel/sul 453.00 0.25 -746 ± 30 81-bel/sul 453.00 0.50 -675 ± 30 81-bel/sul 453.00 0.75 -620 ± 30 81-bel/sul 463.00 0.25 -713 ± 30 81-bel/sul 463.00 0.50 -655 ± 30 81-bel/sul ___________

__________________________________________

MW = 96.10 MW = 110.13

T K 483.00 493.00 503.00

B12 ± δB12 cm3· mol-1 -598.0 ± 45.6 -584.0 ± 44.5 -565.0 ± 43.1

T K 483.00 483.00 483.00 493.00 493.00 493.00 503.00 503.00 503.00

x2

___________

___________

[462-06-6] [95-52-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 433.00 -607 ± 45 81-bel/sul 443.00 -613 ± 45 81-bel/sul 453.00 -612 ± 45 81-bel/sul 463.00 -609 ± 45 81-bel/sul ___________

C6H5F C7H7F

T K 473.00 483.00 493.00

T K 463.00 473.00 473.00 473.00 483.00 483.00 483.00 493.00 493.00 493.00 ___________

Ref.

______________________________________________

84-bel/sul 84-bel/sul 84-bel/sul

Bm ± δBm cm3· mol-1 -567.0 ± 34.7 -634.0 ± 39.4 -651.0 ± 40.6 -540.0 ± 32.8 -601.0 ± 37.1 -633.0 ± 39.3 -520.0 ± 31.4 -573.0 ± 35.1 -615.0 ± 38.1

Ref.

__________________________________________

0.25 0.50 0.75 0.25 0.50 0.75 0.25 0.50 0.75

C6H5F C7H7F

___________

742

84-bel/sul 84-bel/sul 84-bel/sul 84-bel/sul 84-bel/sul 84-bel/sul 84-bel/sul 84-bel/sul 84-bel/sul

MW = 96.10 MW = 110.13

B12 ± δB12 cm3· mol-1 -607 ± 45 -603 ± 45 -597 ± 45

743

Ref.

______________________________________________

x1

81-bel/sul 81-bel/sul 81-bel/sul

Bm ± δBm cm3· mol-1 -596 ± 30 -682 ± 30 -635 ± 30 -576 ± 30 -650 ± 30 -615 ± 30 -558 ± 30 -620 ± 30 -596 ± 30 -543 ± 30

Ref.

__________________________________________

0.75 0.25 0.50 0.75 0.25 0.50 0.75 0.25 0.50 0.75

81-bel/sul 81-bel/sul 81-bel/sul 81-bel/sul 81-bel/sul 81-bel/sul 81-bel/sul 81-bel/sul 81-bel/sul 81-bel/sul

Landolt-Börnstein New Series IV/21B

351

3 Mixtures of Two Organic Compounds

Fluorobenzene Toluene

[462-06-6] [108-88-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 443.20 -795 ± 20 76-bel/sul 453.20 -774 ± 20 76-bel/sul 463.20 -709 ± 20 76-bel/sul ___________

______________________________________________

Fluorobenzene Heptane

______________________________________________

Fluorobenzene Octane

______________________________________________

Benzene Cyclohexane

T K 473.20 483.20 493.20 ___________

B12 ± δB12 cm3· mol-1 -655 ± 20 -576 ± 20 -519 ± 20

___________

744

Ref.

______________________________________________

76-bel/sul 76-bel/sul 76-bel/sul

MW = 96.10 MW = 100.20

B12 ± δB12 cm3· mol-1 -564 ± 20 -536 ± 20 -515 ± 20

745

Ref.

______________________________________________

C6H5F C8H18

T K 473.20 483.20 493.20

[71-43-2] [110-82-7]

MW = 96.10 MW = 92.14

C6H5F C7H16

[462-06-6] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 443.20 -993 ± 60 74-sul/bel 453.20 -944 ± 57 74-sul/bel 463.20 -897 ± 54 74-sul/bel ___________

T K 473.20 483.20 493.20 ___________

[462-06-6] [142-82-5]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 433.20 -772 ± 20 76-bel/sul-2 443.20 -706 ± 20 76-bel/sul-2 453.20 -648 ± 20 76-bel/sul-2 463.20 -600 ± 20 76-bel/sul-2 ___________

C6H5F C7H8

76-bel/sul-2 76-bel/sul-2 76-bel/sul-2

MW = 96.10 MW = 114.23

B12 ± δB12 cm3· mol-1 -855 ± 51 -816 ± 49 -782 ± 47

746

Ref.

______________________________________________

C6H6 C6H12

74-sul/bel 74-sul/bel 74-sul/bel

MW = 78.11 MW = 84.16

747

Table 1. Recommended values given by the following equation whose coefficients were obtained by a weighted least square fit of the selected experimental values: B12/cm3⋅mol-1 = 1.8243 ⋅ 103 − 9.9756 ⋅ 105/(T/K) T/K 310 325

(B12 ± 2σest)/cm3· mol-1 -1393.6 ± 40 -1245.1 ± 30

T/K 350 375

(B12 ± 2σest)/cm3· mol-1 -1025.9 ± 20 -835.9 ± 15

T/K

(B12 ± 2σest)/cm3· mol-1

cont. Landolt-Börnstein New Series IV/21B

352

3 Mixtures of Two Organic Compounds

Benzene + Cyclohexane (cont.) Table 2. Experimental B12 values with uncertainty. T Bexp ± δB Bexp - Bcalc Ref. (Symbol K cm3· mol-1 cm3· mol-1 in Fig. 1) 308.00 -1364 ± 20 50.5 80-pas/han(▲) 308.20 -1346 ± 10 66.4 62-bot/coo-1(◊) 323.00 -1280 ± 1.2 -15.9 80-pas/han(▲) 323.20 -1215 ± 10 47.2 62-bot/coo-1(◊) 328.20 -1227 ± 30 -11.8 55-wae(‹) 333.20 -1203 ± 23 -33.4 55-wae(‹) 338.20 -1158 ± 12 -32.7 55-wae(‹) _________

______________________________________

_____________________________________

T K 343.20 343.20 348.00 348.20 373.00 373.20 _________

Bexp ± δB Bexp - Bcalc cm3· mol-1 cm3· mol-1 -1109 ± 20 -26.7 -1041 ± 10 41.3 -1090 ± 1.2 -47.7 -1075 ± 9 -34.4 -840 ± 1 10.1 -918 ± 8 -69.3 ______________________________________

_____________________________________

Ref. (Symbol in Fig. 1) 55-wae(‹) 62-bot/coo-1(◊) 80-pas/han(▲) 55-wae(‹) 80-pas/han(▲) 60-cox/stu(„)

100

(B 12 - B 12calc)/cm3·mol-1

50

0

-50

-100 300

320

340

360

380

400

T /K

Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The error bars represent the experimental errors. (Error bars smaller than the symbols are omitted for clarity of the figure.) Table 3. Experimental Bm values with uncertainty. T x2 Bm ± δBm Ref. K cm3· mol-1 318.15 0.40 -1273 ± 60 79-pat 318.15 0.38 -1277 ± 60 79-pat 433.15 0.25 -641 ± 13 76-bel/sul-1 433.15 0.50 -652 ± 15 76-bel/sul-1 433.15 0.75 -653 ± 23 76-bel/sul-1 443.15 0.25 -602 ± 7 76-bel/sul-1 443.15 0.50 -611 ± 10 76-bel/sul-1 443.15 0.75 -618 ± 12 76-bel/sul-1 453.15 0.25 -570 ± 8 76-bel/sul-1 453.15 0.50 -580 ± 8 76-bel/sul-1 453.15 0.75 -590 ± 9 76-bel/sul-1 463.15 0.25 -543 ± 9 76-bel/sul-1 ___________

__________________________________________

T K 463.15 463.15 473.15 473.15 473.15 483.15 483.15 483.15 493.15 493.15 493.15

x2

___________

Bm ± δBm cm3· mol-1 -552 ± 10 -568 ± 9 -520 ± 7 -529 ± 8 -546 ± 8 -497 ± 11 -504 ± 7 -526 ± 3 -447 ± 13 -481 ± 13 -505 ± 9

Ref.

__________________________________________

0.50 0.75 0.25 0.50 0.75 0.25 0.50 0.75 0.25 0.50 0.75

76-bel/sul-1 76-bel/sul-1 76-bel/sul-1 76-bel/sul-1 76-bel/sul-1 76-bel/sul-1 76-bel/sul-1 76-bel/sul-1 76-bel/sul-1 76-bel/sul-1 76-bel/sul-1

cont. Landolt-Börnstein New Series IV/21B

353

3 Mixtures of Two Organic Compounds

Benzene + Cyclohexane (cont.) Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 300.00 0.50 175 ± 50 80-mce/sha 308.00 0.50 56 ± 10 80-pas/han 315.16 0.50 40 ± 15 80-mce/sha 323.00 0.50 30 ± 2 80-pas/han 323.16 0.50 44 ± 1 80-mce/sha ___________

________________________________________

Benzene Hexane

T K 348.00 348.16 373.00 373.16 ___________

[71-43-2] [110-54-3]

x1

BE ± δBE cm3· mol-1 25 ± 2 19 ± 3 22 ± 3 21 ± 3

0.50 0.50 0.50 0.50

C6H6 C6H14

T K 398.15 398.15 398.15 433.20 443.20 453.20 463.20 473.20 478.20 483.20 493.20

B12 ± δB12 cm3· mol-1 -783 ± 2.2 -783 ± 2.2 -783 ± 2.2 -761 ± 10.0 -738 ± 10.0 -674 ± 10.0 -610 ± 10.0 -557 ± 10.0 -545 ± 10.0 -498 ± 10.0 -435 ± 10.0

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE 3 -1 K cm · mol 298.15 0.50 48.0 ± 8.0 83-bat/mal 298.15 0.50 59.0 ± 7.0 83-bat/mal 323.15 0.50 31.0 ± 2.0 83-bat/mal 323.15 0.50 29.0 ± 2.0 83-bat/mal 348.15 0.50 22.0 ± 2.0 83-bat/mal 348.15 0.50 26.0 ± 2.0 83-bat/mal 348.15 0.50 20.0 ± 2.0 83-bat/mal

T K 348.15 373.15 373.15 373.15 398.15 398.15 398.15

x1

___________

______________________________________________

________________________________________

Benzene Toluene

Landolt-Börnstein New Series IV/21B

___________

[71-43-2] [108-88-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 453.20 -676 ± 10 74-bel/sul 463.20 -637 ± 10 74-bel/sul 473.20 -594 ± 10 74-bel/sul ___________

___________

______________________________________________

T K 483.20 493.20

748

Ref.

______________________________________________

83-bat/mal 83-bat/mal 83-bat/mal 71-zaa/bel 71-zaa/bel 71-zaa/bel 71-zaa/bel 71-zaa/bel 71-zaa/bel 73-bel/ver-1 73-bel/ver-1

BE ± δBE cm3· mol-1 20.0 ± 2.0 18.6 ± 1.5 22.8 ± 1.0 20.9 ± 1.5 15.5 ± 1.5 15.4 ± 1.5 15.4 ± 1.5

Ref.

________________________________________

0.50 0.50 0.50 0.50 0.50 0.50 0.50

C6H6 C7H8

___________

80-pas/han 80-mce/sha 80-pas/han 80-mce/sha

MW = 78.11 MW = 86.18

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -1644 ± 6.9 83-bat/mal 298.15 -1633 ± 6.9 83-bat/mal 323.15 -1326 ± 6.0 83-bat/mal 323.15 -1327 ± 6.0 83-bat/mal 348.15 -1094 ± 5.3 83-bat/mal 348.15 -1091 ± 5.3 83-bat/mal 348.15 -1096 ± 5.3 83-bat/mal 348.15 -1096 ± 5.3 83-bat/mal 373.15 -917 ± 2.3 83-bat/mal 373.15 -913 ± 2.3 83-bat/mal 373.15 -915 ± 2.3 83-bat/mal ___________

Ref.

________________________________________

83-bat/mal 83-bat/mal 83-bat/mal 83-bat/mal 83-bat/mal 83-bat/mal 83-bat/mal

MW = 78.11 MW = 92.14

B12 ± δB12 cm3· mol-1 -559 ± 10 -530 ± 10

Ref.

______________________________________________

74-bel/sul 74-bel/sul

749

354

3 Mixtures of Two Organic Compounds

Benzene Heptane

[71-43-2] [142-82-5]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 463.20 -668 ± 20 67-bel/zaa 473.20 -621 ± 20 67-bel/zaa 483.20 -581 ± 20 67-bel/zaa ___________

______________________________________________

Benzene Octane

T K 493.20 503.20 ___________

[71-43-2] [111-65-9]

Table 2. Experimental B12 values with uncertainty. Ref. T B12 ± δB12 K cm3· mol-1 478.20 -666 ± 10 71-zaa/bel-2 488.20 -642 ± 10 71-zaa/bel-2 ___________

C6H6 C7H16

______________________________________________

T K 498.20

Benzene [71-43-2] 1,7,7-Trimethylbicyclo[2.2.1]-2-heptanone [76-22-2]

___________

T K 348.15 373.15 373.15 373.15 398.15 398.15

Table 4. Experimental BE values with uncertainty. x1 Ref. T BE ± δBE K cm3· mol-1 298.15 0.50 3.0 ± 7.0 83-bat/mal 298.15 0.50 -12.0 ± 7.0 83-bat/mal 298.15 0.50 -15.0 ± 7.0 83-bat/mal

T K 323.15 323.15 348.15

___________

___________

______________________________________________

________________________________________

___________

___________

751

Ref. 71-zaa/bel-2

C6H6

MW = 78.11

C10H16O

MW = 152.24

B12 ± δB12 cm3· mol-1

752

Ref.

______________________________________________

C6H14 C6H14

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 298.15 -1764 ± 50 83-bat/mal 298.15 -1780 ± 50 83-bat/mal 298.15 -1782 ± 50 83-bat/mal 323.15 -1428 ± 50 83-bat/mal 323.15 -1428 ± 50 83-bat/mal 348.15 -1177 ± 50 83-bat/mal

67-bel/zaa 67-bel/zaa

MW = 78.11 MW = 114.23

B12 ± δB12 cm3· mol-1 -595 ± 10

T K

[110-82-7] [110-54-3]

Ref.

______________________________________________

___________

______________________________________________

Cyclohexane Hexane

B12 ± δB12 cm3· mol-1 -546 ± 20 -523 ± 20

750

______________________________________________

C6H6 C8H18

___________

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 353.15 -825 ± 20 65-cha/wan

MW = 78.11 MW = 100.20

MW = 84.16 MW = 86.18

B12 ± δB12 cm3· mol-1 -1177 ± 50 -989 ± 50 -988 ± 50 -989 ± 50 -846 ± 50 -845 ± 50

753

Ref.

______________________________________________

x1

83-bat/mal 83-bat/mal 83-bat/mal 83-bat/mal 83-bat/mal 83-bat/mal

BE ± δBE cm3· mol-1 -7.0 ± 2.0 -7.0 ± 2.0 -4.7 ± 1.5

Ref.

________________________________________

0.50 0.50 0.50

83-bat/mal 83-bat/mal 83-bat/mal cont. Landolt-Börnstein New Series IV/21B

355

3 Mixtures of Two Organic Compounds

Cyclohexane + Hexane (cont.) Table 4. (cont.) T x1 K 348.15 0.50 373.15 0.50 373.15 0.50 ___________

BE ± δBE cm3· mol-1 -4.2 ± 1.5 -4.2 ± 1.5 -2.9 ± 1.5

Ref.

Hexane Octane

83-bat/mal 83-bat/mal 83-bat/mal

[110-54-3] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 403.20 -1173 ± 26 79-wor/lew ___________

______________________________________________

4-Fluorotoluene Toluene

______________________________________________

3-Fluorotoluene Toluene

___________

______________________________________________

Heptane Octane

Landolt-Börnstein New Series IV/21B

T K 423.20 443.20 ___________

______________________________________________

0.50 0.50 0.50

T K 423.20 443.20 458.20

T K 413.20

83-bat/mal 83-bat/mal 83-bat/mal

MW = 86.18 MW = 114.23

B12 ± δB12 cm3· mol-1 -1105 ± 25

754

Ref. 79-wor/lew

MW = 110.13 MW = 92.14

B12 ± δB12 cm3· mol-1 -868 ± 15 -779 ± 15

755

Ref.

______________________________________________

75-moz/kol-1 75-moz/kol-1

MW = 110.13 MW = 92.14

B12 ± δB12 cm3· mol-1 -802 ± 15 -640 ± 15 -516 ± 15

756

Ref.

______________________________________________

C7H16 C8H18

___________

Ref.

______________________________________________

C7H7F C7H8

___________

BE ± δBE cm3· mol-1 -4.0 ± 1.5 -4.1 ± 1.5 -3.1 ± 1.5 ________________________________________

C7H7F C7H8

[142-82-5] [111-65-9]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 403.20 -1407 ± 30 79-wor/lew ___________

T K 413.20 ___________

[352-70-5] [108-88-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 K cm3· mol-1 373.20 -1218 ± 15 74-moz/kol-1 388.20 -1069 ± 15 74-moz/kol-1 403.20 -967 ± 15 74-moz/kol-1

x1

C6H14 C8H18

[352-32-9] [108-88-3]

Table 2. Experimental B12 values with uncertainty. T Ref. B12 ± δB12 3 -1 K cm · mol 373.20 -1199 ± 20 75-moz/kol-1 388.20 -1072 ± 19 75-moz/kol-1 403.20 -975 ± 16 75-moz/kol-1 ___________

T K 373.15 398.15 398.15 ___________

________________________________________

74-moz/kol-1 74-moz/kol-1 74-moz/kol-1

MW = 100.20 MW = 114.23

B12 ± δB12 cm3· mol-1 -1322 ± 28

Ref.

______________________________________________

79-wor/lew

757

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